hydrogen and ruthenium

hydrogen has been researched along with ruthenium in 232 studies

Research

Studies (232)

TimeframeStudies, this research(%)All Research%
pre-19901 (0.43)18.7374
1990's1 (0.43)18.2507
2000's73 (31.47)29.6817
2010's138 (59.48)24.3611
2020's19 (8.19)2.80

Authors

AuthorsStudies
Barton, JK; Rehmann, JP1
Carafoli, E; Rossi, CS; Vasington, FD1
Gao, JX; Ikariya, T; Tang, CL; Tsai, KR; Wan, HL; Xu, PP; Yi, XD; Zhang, H1
Genet, JP; Guerreiro, P; Ratovelomanana-Vidal, V1
Polborn, K; Severin, K1
Bielawski, CW; Grubbs, RH; Louie, J1
Bowler, BE; Kise, KJ1
Hérault, D; Lamouille, T; Lemaire, M; Saluzzo, C1
De Visser, SP; Ogliaro, F; Shaik, S; Sharma, PK1
Casey, CP; Johnson, JB1
Bryant, JR; Mayer, JM1
Fukuzumi, S; Komori, T; Nishimine, M; Ohkubo, K1
Genet, JP1
Bäckvall, JE; Pàmies, O1
Justice, AK; Linck, RC; Rauchfuss, TB; Wilson, SR1
Bäckvall, JE; Ell, AH; Samec, JS1
Casey, CP; Cui, Q; Johnson, JB; Singer, SW1
Matsuo, T; Mayer, JM1
Cokoja, M; Fischer, RA; Frenking, G; Gemel, C; Kempter, A; Krapp, A; Steinke, T; Zenneck, U1
Muñiz, K; Noyori, R; Ohkuma, T; Sandoval, CA1
Datta, S; Liu, RS; Odedra, A1
Karvembu, R; Kaveri, MV; Natarajan, K; Prabhakaran, R1
Kondo, T; Mitsudo, TA; Tsujita, H; Ura, Y; Wada, K1
Arisawa, M; Nishida, A; Terada, Y1
Baerends, EJ; Luppi, M; Olsen, RA1
Davis, RJ; Ketchie, WC; Maris, EP; Oleshko, V1
Artero, V; Fontecave, M; Oudart, Y; Pécaut, J1
Jun, MJ; Kim, JS; Ko, J; Lee, NK; Park, HS; Park, YJ; Youm, KT1
Barakat, KA; Cundari, TR; Feng, Y; Foley, NA; Gunnoe, TB; Lail, M; Petersen, JL1
Murata, K; Noyori, R; Ohkuma, T; Sandoval, C; Tsutsumi, K; Utsumi, N1
Aindow, M; Erkey, C; Kang, D; Zhang, Y1
Dutta, S; Jagirdar, BR1
Hartwig, JF; Incarvito, C; Kawamura, K; Lawrence, JD; Murphy, JM1
Soliman, AA1
Szymczak, NK; Tyler, DR; Zakharov, LN1
Handgraaf, JW; Meijer, EJ1
Rauchfuss, TB1
Fukuzumi, S; Harada, R; Higuchi, Y; Kabe, R; Kure, B; Kuroki, R; Menon, SC; Nishimura, T; Ogo, S; Ohhara, T; Tamada, T; Uehara, K1
Casey, CP; Clark, TB; Guzei, IA1
Bähn, S; Beller, M; Hollmann, D; Tillack, A1
Lam, WW; Lau, TC; Leung, CF; Man, WL; Wong, CY1
Heiden, ZM; Rauchfuss, TB1
Coquet, R; Iwasawa, Y; Tada, M1
Blanchard, J; Boujday, S; Breysse, M; Geantet, C; Krafft, JM; Louis, C; Proust, A; Villanneau, R1
Ikariya, T; Ito, M1
Owston, NA; Parker, AJ; Williams, JM1
Beetner, SE; Casey, CP; Johnson, JB1
Itakura, N; Matsumoto, T; Nakaya, Y; Tatsumi, K1
Axet, MR; Buntkowsky, G; Chaudret, B; García-Antón, J; Jansat, S; Limbach, HH; Pery, T; Philippot, K1
An, XL; Chen, JR; Li, CF; Xiao, WJ; Zhang, JJ; Zhu, XY1
Basset, JM; Baudouin, A; Berthoud, R; Candy, JP; Copéret, C; Fenet, B; Lukens, W; Pelzer, K1
Sanderson, K1
Dyson, PJ; Fellay, C; Laurenczy, G1
Genêt, JP; Meng, Q; Ratovelomanana-Vidal, V; Sun, Y; Zhang, Z1
Beller, M; Boddien, A; Junge, H; Loges, B2
Kibler, LA; Kolb, DM; Pluntke, Y1
Black, DA; Blaquiere, N; Diallo-Garcia, S; Fagnou, K; Gorelsky, SI1
Fukuyama, T; Horiguchi, J; Murakami, Y; Omura, S; Ryu, I1
Mayer, JM; Wu, A1
Asscher, M; Ayoub, Y1
Madsen, R; Nordstrøm, LU; Vogt, H1
Arakawa, Y; Haraguchi, N; Itsuno, S; Tsuru, K1
Guo, Y; Murahashi, S; Zhang, D; Zhao, X1
Gunanathan, C; Milstein, D; Shimon, LJ1
Braden, DA; Crossland, JL; Szymczak, NK; Turov, Y; Tyler, DR; Zakharov, LN1
Che, CM; Fang, R; Huang, JS; Li, GY; Xu, ZJ; Zhao, C; Zhu, N1
Adamczyk, A; Breitzke, H; Buntkowsky, G; Huang, J; Li, H; Limbach, HH; Pelzer, K; Walaszek, B; Yeping, X1
Ogo, S1
Ichikawa, K; Matsumoto, T; Ogo, S1
Artero, V; Canaguier, S; Field, MJ; Fontecave, M; Ostermann, R; Pécaut, J; Vaccaro, L1
Anderlund, M; Hammarström, L; Johansson, O; Lindblad, P; Lomoth, R; Magnuson, A; Ott, S; Polivka, T; Stensjö, K; Styring, S; Sundström, V1
Alonso, F; Foubelo, F; González-Gómez, JC; Martínez, R; Ramón, DJ; Riente, P; Yus, M1
Ertl, G; Pinheiro, AL; Zei, MS1
Gust, D; Moore, AL; Moore, TA1
Deng, Y; Li, X; Ma, X; Shi, F1
Bansmann, J; Diemant, T; Rauscher, H1
Binnemans, K; De Vos, DE; Ignatyev, IA; Mertens, PG; Van Doorslaer, C1
Chan, OY; Che, CM; Ho, CM; Huang, JS; Yan, JJ; Zhang, FY; Zhang, JL; Zhou, CY1
Conley, BL; Williams, TJ1
Brimblecombe, R; Dismukes, GC; Koo, A; Spiccia, L; Swiegers, GF1
Kim, K; Matsumoto, T; Ogo, S; Zheng, C1
Higuchi, Y; Ichikawa, K; Kure, B; Matsumoto, T; Nonaka, K; Ogo, S; Yagi, T; Yoon, KS1
Artero, V; Canaguier, S; Field, MJ; Fontecave, M; Vaccaro, L1
Kendall, K; Majewski, A; Morris, DJ; Wills, M1
Carpentier, K; de Blochouse, K; Geboers, J; Jacobs, P; Sels, B; Van de Vyver, S1
Groot, IM; Juanes-Marcos, JC; Kroes, GJ; Olsen, RA1
Ackermann, L1
Fujiwara, Y; Iwata, H; Monguchi, Y; Sajiki, H; Sawama, Y1
Du Bois, J; McNeill, E1
Kobayashi, M; Masaoka, S; Sakai, K1
Axet, R; Buntkowsky, G; Chaudret, B; del Rosal, I; Grünberg, A; Gutmann, T; Lavigne, G; Limbach, HH; Poteau, R; Wächtler, M; Walaszek, B; Yeping, X1
Gnanaprakasam, B; Gunanathan, C; Iron, MA; Milstein, D; Shimon, LJ1
Deng, G; Feng, C; Li, CJ; Liu, Y; Peng, S; Shuai, Q1
Mayer, JM1
Himeda, Y; Hirose, T; Miyazawa, S1
Concepción, P; Corma, A; Primo, A1
Arachchige, SM; Brewer, KJ; Knoll, JD1
Füchsel, G; Klamroth, T; Monturet, S; Saalfrank, P1
Hammarström, L; Styring, S1
Czaun, M; Goeppert, A; Haiges, R; May, R; Olah, GA; Prakash, GK1
Arachchige, SM; Brewer, KJ; Shaw, R; Shenoy, V; Tsui, HM; White, TA1
Ackermann, L; Vicente, R1
Li, CJ; Yoo, WJ1
Geboers, J; Goossens, S; Jacobs, PA; Philippaerts, A; Sels, BF; Tromp, M; Turner, S; Van Tendeloo, G; Vermandel, W1
Hayashi, T; Onoda, A; Sano, Y2
Armstrong, FA; Reisner, E1
Díez, J; Gimeno, J; Merino, I; Rubio, E; Suárez, FJ1
Cano, R; Ramón, DJ; Yus, M1
Ackermann, L; Lygin, AV1
Aresta, M; Dibenedetto, A; Nocito, F; Stufano, P1
Achard, M; Bruneau, C; Sharma, GV; Sundararaju, B1
Beller, M; Boddien, A; Gartner, F; Junge, H; Laurenczy, G; Mellmann, D; Sponholz, P1
Askevold, B; Diefenbach, M; Herdtweck, E; Holthausen, MC; Nieto, JT; Schneider, S; Tussupbayev, S1
Hakamata, T; Ikariya, T; Kayaki, Y; Kobayashi, T; Nara, H; Saito, T; Sayo, N; Touge, T1
Fukuzumi, S; Kotani, H; Miyahigashi, T; Ohkubo, K; Yamada, Y1
Furlan, S; La Penna, G1
Chen, MW; Chen, QA; Shi, L; Wang, DS; Yang, Y; Yu, CB; Zhou, YG1
Lipke, MC; Tilley, TD1
Guo, X; Lei, M; Tang, Y; Zhang, X1
Grudzien, RM; Ivie, JA; Radaram, B; Reibenspies, JH; Singh, WM; Webster, CE; Zhao, X1
Balaraman, E; Ben-David, Y; Gnanaprakasam, B; Milstein, D1
Kalyani, D; McMurtrey, KB; Neufeldt, SR; Sanford, MS1
Douglas, T; Elgren, TE; Gerlach, R; Lucon, JE; Peters, JW; Zadvornyy, OA; Zorin, NA1
Kim, T; Kobayashi, K; Nagai, M; Take, T1
Kim, K; Matsumoto, T; Nakai, H; Ogo, S; Robertson, A1
Han, Y; Liu, X; Meng, C1
Chen, Y; Fang, W; Guo, X; Lei, M; Tang, Y; Zhang, X1
Krische, MJ; McInturff, EL; Yamaguchi, E; Zbieg, JR1
Achord, P; Cabelli, D; Cohen, BW; Fujita, E; Muckerman, JT; Polyansky, DE; Tanaka, K; Thummel, RP; Zong, R1
Bozoglian, F; Duan, L; Llobet, A; Mandal, S; Privalov, T; Stewart, B; Sun, L1
Achard, T; Austeri, M; Guénée, L; Lacour, J; Tortoreto, C; Zeghida, W1
Atzrodt, J; Bähn, S; Beller, M; Derdau, V; Holla, W; Imm, S; Michalik, D; Neubert, L; Neumann, H1
Kern, S; van Eldik, R1
Fukuzumi, S; Miyahigashi, T; Ohkubo, K; Yamada, Y1
Ahlquist, MS; Araujo, CM; Duan, L; Sun, L1
Hölscher, M; Leitner, W1
Bardají, E; Carmona, D; Ferrer, J; García-Orduña, P; Lahoz, FJ; Oro, LA; Pilar Lamata, M; Viguri, F1
Mashima, D; Matsuzaka, H; Takemoto, S; Yamano, T; Yamazaki, Y1
Cropek, DM; Gray, HB; Holder, AA; Horne, T; Horton, DC; Jarrett, WL; Metz, A; Müller, AM; Phillips, JD; Poluektov, O; Tiede, DM; Weber, RT1
Bindra, GS; Browne, WR; Groarke, R; Inglis, JL; MacLean, BJ; Paul, A; Pfeffer, MG; Pryce, MT; Rau, S; Schulz, M; Soman, S; Vos, JG1
Akbayrak, S; Ozkar, S1
De Luca, L; Mura, MG; Pizzetti, M; Porcheddu, A; Taddei, M1
Beller, M; Gonsalvi, L; Junge, H; Mellmann, D; Mellone, I; Peruzzini, M; Rosi, L1
Courtin, CM; Geboers, J; Huijgen, WJ; Jacobs, PA; Op de Beeck, B; Sels, BF; Snelders, J; Van de Vyver, S; Van Lishout, J1
Hölscher, M; Klankermayer, J; Leitner, W; Merkens, C; Ostapowicz, TG1
Füchsel, G; Klamroth, T; Saalfrank, P; Tremblay, JC1
Clark, JR; Diver, ST; Griffiths, JR1
Beller, M; Bornschein, C; Junge, K; Werkmeister, S1
Danilovic, N; Markovic, NM; Paulikas, AP; Stamenkovic, VR; Strmcnik, D; Subbaraman, R; Uchimura, M; van der Vliet, D; Wang, C1
Grützmacher, H; Rodríguez-Lugo, RE; Santiso-Quinones, G; Tewes, F; Trincado, M; Vogt, M1
Biswas, MK; Ghosh, P; Ke, SC; Maity, AN; Patra, SC; Weyhermüller, T1
Che, CM; Wei, J; Xiao, W; Zhou, CY1
Artero, V; Canaguier, S; Field, MJ; Fize, J; Fontecave, M; Fourmond, V; Pécaut, J; Perotto, CU1
Jiao, N; Liang, YF; Qin, C; Zheng, QZ1
Ugrinov, A; Zhang, J; Zhao, P1
Boone, MP; Stephan, DW1
Madsen, R; Makarov, IS1
Kačer, P; Kuzma, M; Pecháček, J; Sot, P; Václavík, J; Vilhanová, B1
Ben-David, Y; Milstein, D; Srimani, D1
He, H; Li, F; Long, X; Sun, P; Xia, C1
Ascic, E; Clausen, JW; Hansen, CL; Le Quement, ST; Nielsen, TE; Ohm, RG; Tanner, D1
Ackermann, L; Wang, L1
Ikeda, R; Kitagawa, H; Kobayashi, H; Kubota, Y; Kusada, K; Matsumura, S; Nagaoka, K; Sato, K; Sumi, N; Takata, M; Toh, S; Yamamoto, T1
Duan, P; Wang, B; Wang, F; Xu, Y; Zhang, C; Zhang, L1
Callear, SK; David, WI; Hunter, HM; Jones, MO; Makepeace, JW; Taylor, JD; Wood, TJ1
Enyong, AB; Moasser, B1
Alsabeh, PG; Beller, M; Cordes, C; Dixneuf, P; Junge, H; Li, B; Li, Y; Mellmann, D; Nielsen, M; Sponholz, P1
Drewello, T; Görls, H; Guldi, DM; Heinemann, FW; Kaufhold, S; Li, J; Petermann, L; Peuntinger, K; Pilz, TD; Rau, S; Schaub, M; Staehle, R; Vos, JG; Wunderlin, M1
Gamasa, P; Lastra, E; Menéndez-Pedregal, E; Pizzano, A; Vaquero, M1
Bach, T; Bannwarth, C; Breitenlechner, S; Frost, JR; Huber, SM1
Ahmạd, E; Majee, K; Padhi, SK; Patel, J; Tanaka, K1
Hirao, Y; Nakajima, K; Nishibayashi, Y; Nonoyama, N; Sakata, K; Yuki, M1
Krische, MJ; Luong, T; Sam, B1
Chan, HF; Chang, CH; Chen, MH; Du, WS; Gliniak, J; Lin, JH; Wu, HH; Wu, TK; Yu, JS1
Gellrich, U; Khusnutdinova, JR; Leitus, GM; Milstein, D1
Cho, J; Dhuri, SN; Fukuzumi, S; Lee, YM; Nam, W; Narulkar, DD; Seo, MS1
Czaun, M; Goeppert, A; Haiges, R; Jones, JP; Kothandaraman, J; May, RB; Olah, GA; Prakash, GK1
Furukawa, S; Komatsu, T; Ochi, K; Suzuki, R; Yashima, T1
Borgna, A; Chiu, CC; Genest, A; Rösch, N1
Dahlberg, PD; Mulfort, KL; Niklas, J; Poluektov, OG; Soltau, SR; Tiede, DM; Utschig, LM1
Beller, M; Neumann, H; Peña-López, M1
Deska, J; Gedig, C; Heim, LE; Prechtl, MH; Thiel, D1
Kalutharage, N; Yi, CS1
Ishiguro, N; Kamachi, T; Kityakarn, S; Muratsugu, S; Sekizawa, O; Tada, M; Uruga, T; Wang, F; Yoshizawa, K1
Chen, X; Liu, J; Strathmann, TJ; Wang, Y; Werth, CJ1
Hausoul, PJ; Negahdar, L; Palkovits, R; Schute, K1
Bertini, F; Gonsalvi, L; Guerriero, A; Mellone, I; Peruzzini, M1
Rau, S; Stumper, A; Zabarska, N1
Agarwal, S; Heeres, HJ; Kloekhorst, A; Wang, Y1
Anders, A; Chen, H; Guo, X; Huang, KW; Lai, Z; Li, H; Min, S; Pan, CL; Pan, Y; Zhang, Y; Zheng, B; Zheng, J1
Fu, Y; Hearn, JM; Liu, Z; Romero-Canelon, I; Sadler, PJ; Sanchez-Cano, C; Soni, R; Wills, M1
Allison, SJ; Ghandhi, L; Lord, RM; McGowan, PC; Pask, CM; Rafferty, K1
Chen, YQ; Farmer, ME; Yu, JQ; Zhu, RY1
Claus, P; Fabičovicová, K; Lucas, M1
Ackermann, L; Kaplaneris, N; Ren, H; Schischko, A1
Deng, S; Guo, D; Liu, Y; Lou, J; Su, C; Wei, Z1
Ha, JM; Jae, J; Kristianto, I; Lee, H; Limarta, SO; Suh, DJ1
Chen, W; Krische, MJ; Xiao, H; Zhang, W1
Marguet, SC; Schneider, CR; Shafaat, HS; Stevenson, MJ1
Bouwman, E; Gezer, G; Siegler, MA; Verbeek, S1
Fukaya, K; Krische, MJ; Sato, H; Turnbull, BWH1
Kayaki, Y; Kuwata, S; Matsunami, A; Nakahara, Y; Toda, T1
Wang, X1
Aillard, P; Berger, M; de la Torre, A; Geerdink, D; Kaiser, M; Knittl-Frank, C; Maulide, N; O' Donovan, DH; Petkova, D1
Ackermann, L; Kapdi, AR; Lorion, MM; Shah, J; Wang, W1
Ji, H; Wu, X1
Fu, Y; He, H; He, L; Ren, Y; Tsang, SCE; Yue, B1
Ackermann, L; Kaplaneris, N; Rogge, T; Schischko, A; Sirvinskaite, G; Son, J1
Cai, X; Chen, W; Feng, F; Gao, Y; Ji, L; Li, X; Wang, X; Zhang, X1
Marguet, SC; Shafaat, HS; Stevenson, MJ1
Spiewak, AM; Weix, DJ1
Bouzouita, D; Buisson, DA; Certiat, M; Chaudret, B; Del Rosal, I; Feuillastre, S; Garcia-Argote, S; Lesot, P; Marcon, E; Maron, L; Palazzolo, A; Pfeifer, V; Pieters, G; Poteau, R; Tricard, S1
Brahmachari, U; Mulfort, KL; Niklas, J; Pokkuluri, PR; Poluektov, OG; Tiede, DM; Utschig, LM1
Doiuchi, D; Hayashi, H; Nakamura, T; Uchida, T1
Alektiar, SN; Du Bois, J; Mack, JBC; Robinson, SG; Sigman, MS1
Goscianska, J; Grams, J; Jędrzejczyk, M; Kozanecki, M; Ruppert, AM; Soszka, E1
Beller, M; Kopf, S; Neumann, H; Ye, F1
Chen, H; Guo, Z; Li, H; Li, R; Qu, K; Wang, J; Yao, Q; Yu, Q; Zeng, S1
Bai, C; Ning, F; Shen, Y; Wang, L; Xu, Z; Zhan, Y; Zhou, X1
Li, C; Lin, L; Shen, Y; Shu, Y; Uyama, H; Wang, Z; Xie, Q; Zhang, J1
Kumar, A; Patra, S; Singh, SK1
Ci, C; Dixneuf, PH; Jiang, H; Tan, Z; Wu, Y; Yang, J; Zhang, M; Zhao, H1
Chang, YH; Krische, MJ; Ortiz, E; Shen, W; Shezaf, JZ1
Ahmad, AA; Karadas, F; Ozbay, E; Ulusoy Ghobadi, TG1
Gupta, R; Yadav, S1
Cho, Y; Krische, MJ; Ortiz, E; Spinello, BJ; Wu, J1
Benazzi, E; Droghetti, F; Lucarini, F; Natali, M; Orlando, A; Ruggi, A1
Chakraborty, S; Jana, A; Maji, B; Sarkar, K1
Chen, BL; Yan, SY; Zhu, XQ1
Cui, T; Huang, X; Li, X1

Reviews

11 review(s) available for hydrogen and ruthenium

ArticleYear
Chemoenzymatic dynamic kinetic resolution.
    Trends in biotechnology, 2004, Volume: 22, Issue:3

    Topics: Biotransformation; Burkholderia cepacia; Catalysis; Chemistry, Organic; Enzymes; Esterification; Fungal Proteins; Hydrogen; Kinetics; Lipase; Models, Chemical; Molecular Structure; Oxidation-Reduction; Palladium; Ruthenium; Stereoisomerism; Substrate Specificity

2004
Metal-ligand bifunctional catalysis for asymmetric hydrogenation.
    Philosophical transactions. Series A, Mathematical, physical, and engineering sciences, 2005, Apr-15, Volume: 363, Issue:1829

    Topics: Catalysis; Hydrogen; Ligands; Macromolecular Substances; Metals; Models, Chemical; Models, Molecular; Oxidation-Reduction; Ruthenium

2005
Catalytic hydrogenation of polar organic functionalities based on Ru-mediated heterolytic dihydrogen cleavage.
    Chemical communications (Cambridge, England), 2007, Dec-28, Issue:48

    Topics: Catalysis; Hydrogen; Hydrogenation; Molecular Structure; Organometallic Compounds; Ruthenium; Stereoisomerism

2007
Hydrogen generation from formic acid decomposition by ruthenium carbonyl complexes. Tetraruthenium dodecacarbonyl tetrahydride as an active intermediate.
    ChemSusChem, 2011, Sep-19, Volume: 4, Issue:9

    Topics: Formates; Halogens; Hydrogen; Organometallic Compounds; Ruthenium

2011
Ruthenium-catalyzed direct arylations through C-H bond cleavages.
    Topics in current chemistry, 2010, Volume: 292

    Topics: Alkenes; Alkylation; Catalysis; Chelating Agents; Chemistry, Organic; Chlorides; Hydrocarbons, Aromatic; Hydrogen; Organometallic Compounds; Ruthenium

2010
Cross-dehydrogenative coupling reactions of sp3-hybridized C-H bonds.
    Topics in current chemistry, 2010, Volume: 292

    Topics: Alkanes; Alkylation; Amines; Catalysis; Chemistry, Organic; Copper; Esters; Hydrocarbons, Aromatic; Hydrogen; Oxidative Coupling; Oxygen; Palladium; Ruthenium

2010
Practical aspects and mechanism of asymmetric hydrogenation with chiral half-sandwich complexes.
    Molecules (Basel, Switzerland), 2013, Jun-10, Volume: 18, Issue:6

    Topics: Alkenes; Catalysis; Hydrogen; Hydrogenation; Imines; Ruthenium; Stereoisomerism

2013
New Wind in Old Sails: Novel Applications of Triphos-based Transition Metal Complexes as Homogeneous Catalysts for Small Molecules and Renewables Activation.
    Chimia, 2015, Volume: 69, Issue:6

    Topics: Biomass; Biphenyl Compounds; Carbon Dioxide; Catalysis; Coordination Complexes; Ethanol; Formates; Hydrogen; Hydrogenation; Phosphines; Ruthenium; Small Molecule Libraries

2015
A Simple and Versatile Amide Directing Group for C-H Functionalizations.
    Angewandte Chemie (International ed. in English), 2016, 08-26, Volume: 55, Issue:36

    Topics: Amides; Carbon; Catalysis; Chemistry Techniques, Synthetic; Hydrocarbons; Hydrogen; Palladium; Rhodium; Ruthenium

2016
Ruthenium(0)-Catalyzed Cycloaddition of 1,2-Diols, Ketols, or Diones via Alcohol-Mediated Hydrogen Transfer.
    Angewandte Chemie (International ed. in English), 2018, 03-12, Volume: 57, Issue:12

    Topics: Alcohols; Catalysis; Cycloaddition Reaction; Hydrogen; Molecular Structure; Ruthenium

2018
Late-Stage Peptide Diversification by Position-Selective C-H Activation.
    Angewandte Chemie (International ed. in English), 2018, 11-05, Volume: 57, Issue:45

    Topics: Amino Acids; Carbon; Catalysis; Gold; Hydrogen; Manganese; Palladium; Peptides; Ruthenium

2018

Other Studies

221 other study(ies) available for hydrogen and ruthenium

ArticleYear
1H NMR studies of tris(phenanthroline) metal complexes bound to oligonucleotides: characterization of binding modes.
    Biochemistry, 1990, Feb-20, Volume: 29, Issue:7

    Topics: Base Sequence; Cobalt; DNA; Hydrogen; Magnetic Resonance Spectroscopy; Molecular Sequence Data; Nucleic Acid Conformation; Oligodeoxyribonucleotides; Organometallic Compounds; Phenanthrolines; Rhodium; Ruthenium; Thermodynamics

1990
The effect of ruthenium red on the uptake and release of Ca 2+ by mitochondria.
    Biochemical and biophysical research communications, 1973, Feb-05, Volume: 50, Issue:3

    Topics: Animals; Binding Sites; Binding, Competitive; Calcium; Chlorides; Hydrogen; Hydrogen-Ion Concentration; In Vitro Techniques; Indicators and Reagents; Membranes; Mitochondria, Liver; Potassium; Rats; Ruthenium

1973
New chiral catalysts for reduction of ketones.
    Chirality, 2000, Volume: 12, Issue:5-6

    Topics: Chemistry; Hydrogen; Ketones; Ligands; Magnetic Resonance Spectroscopy; Models, Chemical; Ruthenium; Ruthenium Compounds; Spectrophotometry, Infrared; Stereoisomerism

2000
Asymmetric synthesis of hydroxylated pyrrolizidine, indolizidine, and (+)-alpha-conhydrine via ruthenium-catalyzed hydrogenation.
    Chirality, 2000, Volume: 12, Issue:5-6

    Topics: Alkaloids; Amino Acids; Chemistry; Hydrogen; Indolizines; Models, Chemical; Pyrrolizidine Alkaloids; Ruthenium

2000
Biomimetic catalysis with immobilised organometallic ruthenium complexes: substrate- and regioselective transfer hydrogenation of ketones.
    Chemistry (Weinheim an der Bergstrasse, Germany), 2000, Dec-15, Volume: 6, Issue:24

    Topics: Catalysis; Hydrogen; Ketones; Molecular Mimicry; Organometallic Compounds; Ruthenium

2000
Tandem catalysis: the sequential mediation of olefin metathesis, hydrogenation, and hydrogen transfer with single-component Ru complexes.
    Journal of the American Chemical Society, 2001, Nov-14, Volume: 123, Issue:45

    Topics: Alkenes; Catalysis; Hydrogen; Organometallic Compounds; Ruthenium

2001
A ruthenium(II) tris(bipyridyl) amino acid: synthesis and direct incorporation into an alpha-helical peptide by solid-phase synthesis.
    Inorganic chemistry, 2002, Jan-28, Volume: 41, Issue:2

    Topics: 2,2'-Dipyridyl; Alanine; Algorithms; Amino Acid Sequence; Amino Acids; Catalysis; Circular Dichroism; Deuterium; Histidine; Hydrogen; Lysine; Molecular Structure; Nuclear Magnetic Resonance, Biomolecular; Organometallic Compounds; Peptides; Ruthenium; Spectrometry, Fluorescence; Spectrophotometry, Ultraviolet; Temperature; Time Factors

2002
Polymer-supported catalysts: enantioselective hydrogenation and hydrogen transfer reduction.
    Bioorganic & medicinal chemistry letters, 2002, Jul-22, Volume: 12, Issue:14

    Topics: Acetoacetates; Acetophenones; Amino Alcohols; Catalysis; Hydrogen; Hydrogenation; Naphthalenes; Oxidation-Reduction; Polymers; Ruthenium; Stereoisomerism

2002
Is the ruthenium analogue of compound I of cytochrome p450 an efficient oxidant? A theoretical investigation of the methane hydroxylation reaction.
    Journal of the American Chemical Society, 2003, Feb-26, Volume: 125, Issue:8

    Topics: Biomimetic Materials; Cytochrome P-450 Enzyme System; Hydrogen; Hydroxylation; Iron; Methane; Models, Molecular; Organometallic Compounds; Oxidants; Ruthenium; Solvents; Thermodynamics

2003
Kinetic isotope effect evidence for a concerted hydrogen transfer mechanism in transfer hydrogenations catalyzed by [p-(Me2CH)C6H4Me]Ru- (NHCHPhCHPhNSO2C6H4-p-CH3).
    The Journal of organic chemistry, 2003, Mar-07, Volume: 68, Issue:5

    Topics: 2-Propanol; Catalysis; Deuterium; Hydrogen; Hydrogenation; Isotopes; Kinetics; Models, Chemical; Molecular Structure; Organometallic Compounds; Oxidation-Reduction; Ruthenium

2003
Oxidation of C-H bonds by [(bpy)2(py)RuIVO]2+ occurs by hydrogen atom abstraction.
    Journal of the American Chemical Society, 2003, Aug-27, Volume: 125, Issue:34

    Topics: Anthracenes; Fluorenes; Hydrogen; Organometallic Compounds; Oxidation-Reduction; Ruthenium; Xanthenes

2003
Reversed effects of DNA on hydride transfer and electron transfer reactions of acridinium and quinolinium ions.
    Chemical communications (Cambridge, England), 2003, Aug-07, Issue:15

    Topics: 2,2'-Dipyridyl; Acridines; Cations; Coordination Complexes; DNA; Electron Transport; Hydrogen; Oxidation-Reduction; Quinolines; Ruthenium

2003
Asymmetric catalytic hydrogenation. Design of new Ru catalysts and chiral ligands: from laboratory to industrial applications.
    Accounts of chemical research, 2003, Volume: 36, Issue:12

    Topics: Alkenes; Catalysis; Cyclization; Drug Design; Heterocyclic Compounds; Hydrogen; Hydrogenation; Ketones; Kinetics; Ligands; Models, Chemical; Molecular Conformation; Molecular Structure; Organometallic Compounds; Phosphines; Rhodium; Ruthenium; Stereoisomerism

2003
Dihydrogen activation by a diruthenium analogue of the Fe-only hydrogenase active site.
    Journal of the American Chemical Society, 2004, Oct-20, Volume: 126, Issue:41

    Topics: Binding Sites; Biomimetic Materials; Hydrogen; Hydrogenase; Iron-Sulfur Proteins; Models, Molecular; Organometallic Compounds; Ruthenium

2004
Efficient ruthenium-catalyzed aerobic oxidation of amines by using a biomimetic coupled catalytic system.
    Chemistry (Weinheim an der Bergstrasse, Germany), 2005, Apr-08, Volume: 11, Issue:8

    Topics: Amines; Benzoquinones; Biomimetics; Catalysis; Hydrogen; Imines; Molecular Structure; Oxidation-Reduction; Oxygen; Ruthenium; Substrate Specificity

2005
Hydrogen elimination from a hydroxycyclopentadienyl ruthenium(II) hydride: study of hydrogen activation in a ligand-metal bifunctional hydrogenation catalyst.
    Journal of the American Chemical Society, 2005, Mar-09, Volume: 127, Issue:9

    Topics: Catalysis; Deuterium Exchange Measurement; Ethanol; Hydrogen; Hydrogenation; Kinetics; Models, Chemical; Models, Molecular; Organometallic Compounds; Phosphines; Ruthenium; Toluene; Water

2005
Oxidations of NADH analogues by cis-[RuIV(bpy)2(py)(O)]2+ occur by hydrogen-atom transfer rather than by hydride transfer.
    Inorganic chemistry, 2005, Apr-04, Volume: 44, Issue:7

    Topics: Acridines; Electrochemistry; Hydrogen; Kinetics; Molecular Structure; NAD; Organometallic Compounds; Oxidation-Reduction; Ruthenium

2005
C-H activated isomers of [M(AlCp*)5] (M=Fe, Ru).
    Angewandte Chemie (International ed. in English), 2005, May-06, Volume: 44, Issue:19

    Topics: Aluminum; Carbon; Hydrogen; Iron; Isomerism; Models, Chemical; Organometallic Compounds; Quantum Theory; Ruthenium

2005
Ruthenium-catalyzed cycloisomerization of cis-3-en-1-ynes to cyclopentadiene and related derivatives through a 1,5-sigmatropic hydrogen shift of ruthenium-vinylidene intermediates.
    Journal of the American Chemical Society, 2005, Aug-24, Volume: 127, Issue:33

    Topics: Alkynes; Catalysis; Cyclization; Cyclopentanes; Hydrogen; Molecular Structure; Organometallic Compounds; Ruthenium; Stereoisomerism; Vinyl Compounds

2005
Synthesis and spectral studies of [RuCl(CO)(L)(PPh3)(B)] (HL = 2'-hydroxychalcones and B = PPh3, pyridine or piperidine) and their catalytic and biological applications.
    Spectrochimica acta. Part A, Molecular and biomolecular spectroscopy, 2005, Volume: 61, Issue:13-14

    Topics: Anti-Bacterial Agents; Antifungal Agents; Aspergillus fumigatus; Carbon Monoxide; Catalysis; Chalcones; Chlorides; Gram-Negative Bacteria; Hydrogen; Magnetic Resonance Spectroscopy; Molecular Structure; Oxidation-Reduction; Piperidines; Pyridines; Ruthenium; Staphylococcaceae

2005
Synthesis of 2-alkylidenetetrahydrofurans by Ru-catalyzed regio- and stereoselective codimerization of dihydrofurans with alpha,beta-unsaturated esters.
    Chemical communications (Cambridge, England), 2005, Oct-28, Issue:40

    Topics: Alkylation; Catalysis; Dimerization; Esters; Furans; Hydrogen; Molecular Structure; Ruthenium; Stereoisomerism

2005
Synthesis of the putative structure of fistulosin using the ruthenium-catalyzed cycloisomerization of diene.
    The Journal of organic chemistry, 2006, Feb-03, Volume: 71, Issue:3

    Topics: Catalysis; Cyclization; Hydrogen; Indoles; Isomerism; Molecular Structure; Oxindoles; Ruthenium

2006
Six-dimensional potential energy surface for H2 at Ru(0001).
    Physical chemistry chemical physics : PCCP, 2006, Feb-14, Volume: 8, Issue:6

    Topics: Adsorption; Computer Simulation; Hydrogen; Models, Chemical; Quantum Theory; Ruthenium; Surface Properties; Thermodynamics

2006
Metal particle growth during glucose hydrogenation over Ru/SiO2 evaluated by X-ray absorption spectroscopy and electron microscopy.
    The journal of physical chemistry. B, 2006, Apr-20, Volume: 110, Issue:15

    Topics: Catalysis; Glucose; Hydrogen; Hydrogenation; Indicators and Reagents; Mass Spectrometry; Microscopy, Electron, Transmission; Particle Size; Ruthenium; Silicon Dioxide; Sorbitol

2006
[Ni(xbsms)Ru(CO)2Cl2]: a bioinspired nickel-ruthenium functional model of [NiFe] hydrogenase.
    Inorganic chemistry, 2006, May-29, Volume: 45, Issue:11

    Topics: Chromatium; Hydrogen; Hydrogenase; Indicators and Reagents; Iron; Magnetic Resonance Spectroscopy; Models, Chemical; Nickel; Organometallic Compounds; Oxidation-Reduction; Ruthenium; Spectrophotometry, Infrared

2006
A self-complementary assembly of metallamacrocycles directed by Ru-Cl...H-N hydrogen bonds and its reversible dichotomy by halide anions in solution.
    Angewandte Chemie (International ed. in English), 2006, Jun-26, Volume: 45, Issue:26

    Topics: Anions; Chlorine; Crystallography, X-Ray; Cyclization; Hydrogen; Hydrogen Bonding; Magnetic Resonance Spectroscopy; Models, Molecular; Nitrogen; Ruthenium; Solutions

2006
Hydrogen-deuterium exchange between TpRu(PMe3)(L)X (L = PMe3 and X = OH, OPh, Me, Ph, or NHPh; L = NCMe and X = Ph) and deuterated arene solvents: evidence for metal-mediated processes.
    Journal of the American Chemical Society, 2006, Jun-21, Volume: 128, Issue:24

    Topics: Cadmium Compounds; Deuterium; Hydrogen; Ligands; Mesylates; Metals; Microscopy, Electron; Organometallic Compounds; Ruthenium; Selenium Compounds; Solvents; Spectrum Analysis; Temperature

2006
The hydrogenation/transfer hydrogenation network: asymmetric hydrogenation of ketones with chiral eta6-arene/N-Tosylethylenediamine-ruthenium(II) catalysts.
    Journal of the American Chemical Society, 2006, Jul-12, Volume: 128, Issue:27

    Topics: Alcohols; Catalysis; Hydrogen; Hydrogenation; Ketones; Molecular Conformation; Molecular Structure; Organometallic Compounds; Ruthenium; Tosyl Compounds

2006
Preparation and characterization of ruthenium/carbon aerogel nanocomposites via a supercritical fluid route.
    The journal of physical chemistry. B, 2005, Feb-24, Volume: 109, Issue:7

    Topics: Adsorption; Carbon; Electrochemistry; Hydrogen; Kinetics; Microscopy, Electron, Transmission; Models, Chemical; Nanoparticles; Nanotechnology; Nanotubes, Carbon; Platinum; Ruthenium; Temperature; Thermodynamics

2005
16-electron elongated dihydrogen complex stabilized by agostic interaction.
    Inorganic chemistry, 2006, Sep-04, Volume: 45, Issue:18

    Topics: Electrons; Hydrogen; Magnetic Resonance Spectroscopy; Molecular Conformation; Organometallic Compounds; Reference Standards; Ruthenium; Stereoisomerism

2006
Ruthenium-catalyzed regiospecific borylation of methyl C-H bonds.
    Journal of the American Chemical Society, 2006, Oct-25, Volume: 128, Issue:42

    Topics: Boron Compounds; Carbon; Catalysis; Hydrogen; Methane; Models, Chemical; Organometallic Compounds; Ruthenium

2006
Spectral and thermal studies on ruthenium carbonyl complexes with 5-trifluoromethyl-2,4-dihydropyrazol-3-one ligands.
    Spectrochimica acta. Part A, Molecular and biomolecular spectroscopy, 2007, Volume: 67, Issue:3-4

    Topics: Carbon; Dimethyl Sulfoxide; Electric Conductivity; Electron Probe Microanalysis; Hydrogen; Ligands; Magnetic Resonance Spectroscopy; Magnetics; Molecular Structure; Molecular Weight; Nitrogen; Pyrazolones; Reference Standards; Ruthenium; Solvents; Spectrophotometry; Spectrophotometry, Infrared; Spectrophotometry, Ultraviolet; Stereoisomerism; Temperature; Thermogravimetry

2007
Solution chemistry of a water-soluble eta2-H2 ruthenium complex: evidence for coordinated H2 acting as a hydrogen bond donor.
    Journal of the American Chemical Society, 2006, Dec-13, Volume: 128, Issue:49

    Topics: Crystallography, X-Ray; Hydrogen; Hydrogen Bonding; Ligands; Magnetic Resonance Spectroscopy; Models, Chemical; Organometallic Compounds; Ruthenium; Solubility; Solutions; Spectrophotometry, Ultraviolet; Stereoisomerism; Water

2006
Realistic modeling of ruthenium-catalyzed transfer hydrogenation.
    Journal of the American Chemical Society, 2007, Mar-21, Volume: 129, Issue:11

    Topics: Amino Alcohols; Catalysis; Formaldehyde; Hydrogen; Hydrogen Bonding; Hydrogenation; Models, Chemical; Models, Molecular; Organometallic Compounds; Ruthenium; Thermodynamics

2007
Chemistry. A promising mimic of hydrogenase activity.
    Science (New York, N.Y.), 2007, Apr-27, Volume: 316, Issue:5824

    Topics: Benzaldehydes; Binding Sites; Biomimetics; Catalysis; Hydrogen; Hydrogenase; Iron; Molecular Mimicry; Nickel; Organometallic Compounds; Ruthenium

2007
A dinuclear Ni(mu-H)Ru complex derived from H2.
    Science (New York, N.Y.), 2007, Apr-27, Volume: 316, Issue:5824

    Topics: Binding Sites; Biomimetics; Catalysis; Crystallization; Crystallography, X-Ray; Hydrogen; Hydrogenase; Iron; Ligands; Magnetic Resonance Spectroscopy; Molecular Mimicry; Neutron Diffraction; Nickel; Organometallic Compounds; Ruthenium; Spectrometry, Mass, Electrospray Ionization; Spectrophotometry, Infrared

2007
Intramolecular trapping of an intermediate in the reduction of imines by a hydroxycyclopentadienyl ruthenium hydride: support for a concerted outer sphere mechanism.
    Journal of the American Chemical Society, 2007, Sep-26, Volume: 129, Issue:38

    Topics: Amines; Hydrogen; Imines; Kinetics; Molecular Conformation; Organometallic Compounds; Oxidation-Reduction; Ruthenium; Stereoisomerism; Toluene

2007
A general ruthenium-catalyzed synthesis of aromatic amines.
    Angewandte Chemie (International ed. in English), 2007, Volume: 46, Issue:43

    Topics: Alkylation; Amines; Catalysis; Hydrogen; Ruthenium

2007
Solvent effects on the oxidation of RuIV=O to O=RuVI=O by MnO4-. hydrogen-atom versus oxygen-atom transfer.
    Journal of the American Chemical Society, 2007, Nov-07, Volume: 129, Issue:44

    Topics: Hydrogen; Kinetics; Molecular Structure; Organometallic Compounds; Oxidation-Reduction; Oxygen; Potassium Permanganate; Ruthenium; Sensitivity and Specificity; Solvents; Spectrophotometry, Infrared; Stereoisomerism; Water

2007
Homogeneous catalytic reduction of dioxygen using transfer hydrogenation catalysts.
    Journal of the American Chemical Society, 2007, Nov-21, Volume: 129, Issue:46

    Topics: Amines; Benzoquinones; Catalysis; Deuterium; Ethylenediamines; Hydrogen; Hydrogenation; Iridium; Kinetics; Magnetic Resonance Spectroscopy; Models, Chemical; Organometallic Compounds; Oxidation-Reduction; Oxygen; Ruthenium; Spectrophotometry, Ultraviolet; Thermodynamics; Toluene; Water

2007
Energy-gaining formation and catalytic behavior of active structures in a SiO(2)-supported unsaturated Ru complex catalyst for alkene epoxidation by DFT calculations.
    Physical chemistry chemical physics : PCCP, 2007, Dec-07, Volume: 9, Issue:45

    Topics: Aldehydes; Alkenes; Binding Sites; Catalysis; Electrons; Epoxy Compounds; Hydrogen; Models, Molecular; Organometallic Compounds; Oxygen; Ruthenium; Silicon Dioxide; Thermodynamics

2007
Polyoxomolybdate-stabilized Ru(0) nanoparticles deposited on mesoporous silica as catalysts for aromatic hydrogenation.
    Chemphyschem : a European journal of chemical physics and physical chemistry, 2007, Dec-21, Volume: 8, Issue:18

    Topics: Absorptiometry, Photon; Benzene; Catalysis; Chemistry, Physical; Fourier Analysis; Hydrogen; Metal Nanoparticles; Microscopy, Electron, Transmission; Molecular Conformation; Molybdenum; Organometallic Compounds; Ruthenium; Silicon Dioxide; Spectrum Analysis, Raman; Temperature

2007
Oxidation of primary alcohols to methyl esters by hydrogen transfer.
    Chemical communications (Cambridge, England), 2008, Feb-07, Issue:5

    Topics: Alcohols; Catalysis; Esters; Hydrogen; Methanol; Molecular Structure; Nitriles; Oxidation-Reduction; Ruthenium

2008
Spectroscopic determination of hydrogenation rates and intermediates during carbonyl hydrogenation catalyzed by Shvo's hydroxycyclopentadienyl diruthenium hydride agrees with kinetic modeling based on independently measured rates of elementary reactions.
    Journal of the American Chemical Society, 2008, Feb-20, Volume: 130, Issue:7

    Topics: Acetophenones; Benzaldehydes; Catalysis; Computer Simulation; Hydrogen; Hydrogenation; Kinetics; Models, Chemical; Organometallic Compounds; Ruthenium; Spectrophotometry, Infrared; Toluene

2008
A functional hydrogenase model: reversible interconversion of H2 and H2O by a hydroxo/sulfido-bridged dinuclear ruthenium-germanium complex.
    Journal of the American Chemical Society, 2008, Feb-27, Volume: 130, Issue:8

    Topics: Germanium; Hydrogen; Hydrogenase; Hydroxides; Ligands; Magnetic Resonance Spectroscopy; Models, Molecular; Molecular Conformation; Organometallic Compounds; Ruthenium; Sulfur; Water

2008
Reactions of olefins with ruthenium hydride nanoparticles: NMR characterization, hydride titration, and room-temperature C--C bond activation.
    Angewandte Chemie (International ed. in English), 2008, Volume: 47, Issue:11

    Topics: Alkenes; Carbon; Hydrogen; Magnetic Resonance Spectroscopy; Nanoparticles; Organometallic Compounds; Particle Size; Phosphines; Ruthenium; Surface Properties; Temperature; Titrimetry

2008
Ru-catalyzed tandem cross-metathesis/intramolecular-hydroarylation sequence.
    Angewandte Chemie (International ed. in English), 2008, Volume: 47, Issue:13

    Topics: Alkenes; Catalysis; Cross-Linking Reagents; Cyclization; Ethylene Dichlorides; Hydrogen; Indoles; Models, Chemical; Ruthenium; Tosyl Compounds

2008
Mononuclear ruthenium hydride species versus ruthenium nanoparticles: the effect of silane functionalities on silica surfaces.
    Chemistry (Weinheim an der Bergstrasse, Germany), 2008, Volume: 14, Issue:12

    Topics: Hydrogen; Metal Nanoparticles; Molecular Conformation; Organometallic Compounds; Ruthenium; Silanes; Silicon Dioxide; Surface Properties

2008
Chemistry: the photon trap.
    Nature, 2008, Mar-27, Volume: 452, Issue:7186

    Topics: Biomimetics; Catalysis; Electron Transport; Energy-Generating Resources; Hydrogen; Metal Nanoparticles; Oxygen; Photons; Photosynthesis; Photosystem II Protein Complex; Plants; Ruthenium; Semiconductors; Silicon; Sunlight; Water

2008
A viable hydrogen-storage system based on selective formic acid decomposition with a ruthenium catalyst.
    Angewandte Chemie (International ed. in English), 2008, Volume: 47, Issue:21

    Topics: Carbon Dioxide; Catalysis; Formates; Hydrogen; Organometallic Compounds; Oxygen; Pressure; Ruthenium; Solutions; Temperature; Time Factors; Water

2008
CeCl3.7H2O: an effective additive in Ru-catalyzed enantioselective hydrogenation of aromatic alpha-ketoesters.
    The Journal of organic chemistry, 2008, May-16, Volume: 73, Issue:10

    Topics: Catalysis; Cerium; Esters; Hydrogen; Hydrogenation; Ketones; Molecular Structure; Organometallic Compounds; Ruthenium; Stereoisomerism; Water

2008
Controlled generation of hydrogen from formic acid amine adducts at room temperature and application in H2/O2 fuel cells.
    Angewandte Chemie (International ed. in English), 2008, Volume: 47, Issue:21

    Topics: Amines; Carbon Dioxide; Electric Power Supplies; Formates; Hydrogen; Organometallic Compounds; Oxygen; Ruthenium; Temperature

2008
Unique activity of Pd monomers: hydrogen evolution at AuPd(111) surface alloys.
    Physical chemistry chemical physics : PCCP, 2008, Jul-07, Volume: 10, Issue:25

    Topics: Adsorption; Alloys; Catalysis; Electrochemistry; Electrodes; Electroplating; Gold; Hot Temperature; Hydrogen; Oxidation-Reduction; Palladium; Ruthenium; Sulfuric Acids

2008
Hydrogen generation at ambient conditions: application in fuel cells.
    ChemSusChem, 2008, Volume: 1, Issue:8-9

    Topics: Amines; Catalysis; Electric Power Supplies; Electrochemistry; Formates; Hydrogen; Phosphines; Ruthenium

2008
Ruthenium-catalyzed dehydrogenation of ammonia boranes.
    Journal of the American Chemical Society, 2008, Oct-29, Volume: 130, Issue:43

    Topics: Ammonia; Boranes; Catalysis; Hydrogen; Hydrogenation; Kinetics; Molecular Structure; Organometallic Compounds; Ruthenium; Stereoisomerism; Time Factors

2008
Ruthenium hydride-catalyzed addition of aldehydes to dienes leading to beta,gamma-unsaturated ketones.
    Journal of the American Chemical Society, 2008, Oct-29, Volume: 130, Issue:43

    Topics: Aldehydes; Alkadienes; Catalysis; Hydrogen; Ketones; Molecular Structure; Organometallic Compounds; Ruthenium; Stereoisomerism

2008
Hydrogen atom transfer reactions of a ruthenium imidazole complex: hydrogen tunneling and the applicability of the Marcus cross relation.
    Journal of the American Chemical Society, 2008, Nov-05, Volume: 130, Issue:44

    Topics: Cyclic N-Oxides; Hydrogen; Imidazoles; Magnetic Resonance Spectroscopy; Organometallic Compounds; Pentanones; Pyridines; Pyrimidines; Ruthenium; Thermodynamics

2008
Photochemistry of ethyl chloride caged in amorphous solid water.
    Physical chemistry chemical physics : PCCP, 2008, Nov-21, Volume: 10, Issue:43

    Topics: Cations; Chemistry, Physical; Electrons; Ethyl Chloride; Hydrogen; Hydrogen Bonding; Molecular Structure; Oxygen; Photochemistry; Ruthenium; Surface Properties; Temperature; Water

2008
Amide synthesis from alcohols and amines by the extrusion of dihydrogen.
    Journal of the American Chemical Society, 2008, Dec-31, Volume: 130, Issue:52

    Topics: Alcohols; Amides; Amines; Catalysis; Hydrogen; Ruthenium

2008
Asymmetric transfer hydrogenation of imines catalyzed by a polymer-immobilized chiral catalyst.
    Organic & biomolecular chemistry, 2009, Jan-07, Volume: 7, Issue:1

    Topics: Catalysis; Chemistry; Cross-Linking Reagents; Hydrogen; Imines; Ligands; Magnetic Resonance Spectroscopy; Metals; Models, Chemical; Polymers; Polystyrenes; Ruthenium; Solvents; Stereoisomerism; Water

2009
Iridium-catalyzed reactions of trifluoromethylated compounds with alkenes: a C(sp3)-H bond activation alpha to the trifluoromethyl group.
    Angewandte Chemie (International ed. in English), 2009, Volume: 48, Issue:11

    Topics: Alkenes; Carbon; Catalysis; Hydrocarbons, Fluorinated; Hydrogen; Iridium; Ruthenium

2009
Direct conversion of alcohols to acetals and H(2) catalyzed by an acridine-based ruthenium pincer complex.
    Journal of the American Chemical Society, 2009, Mar-11, Volume: 131, Issue:9

    Topics: Acetals; Acridines; Alcohols; Catalysis; Crystallography, X-Ray; Hydrogen; Models, Molecular; Molecular Structure; Organometallic Compounds; Ruthenium

2009
Aqueous coordination chemistry of H2: why is coordinated H2 inert to substitution by water in trans-Ru(P2)2(H2)H+-type complexes (P2 = a chelating phosphine)?
    Inorganic chemistry, 2009, Apr-06, Volume: 48, Issue:7

    Topics: Computer Simulation; Crystallography, X-Ray; Hydrogen; Models, Molecular; Molecular Structure; Organometallic Compounds; Phosphines; Ruthenium; Water

2009
cis-Beta-bis(carbonyl) ruthenium-salen complexes: X-ray crystal structures and remarkable catalytic properties toward asymmetric intramolecular alkene cyclopropanation.
    Journal of the American Chemical Society, 2009, Apr-01, Volume: 131, Issue:12

    Topics: Alkenes; Carbon; Catalysis; Chemistry, Organic; Crystallography, X-Ray; Hydrogen; Ligands; Magnetic Resonance Spectroscopy; Models, Chemical; Models, Molecular; Molecular Conformation; Ruthenium; Thermodynamics

2009
2H-solid-state-NMR study of hydrogen adsorbed on catalytically active ruthenium coated mesoporous silica materials.
    Solid state nuclear magnetic resonance, 2009, Volume: 35, Issue:3

    Topics: Adsorption; Catalysis; Hydrogen; Magnetic Resonance Spectroscopy; Models, Molecular; Molecular Conformation; Porosity; Ruthenium; Silicon Dioxide

2009
Electrons from hydrogen.
    Chemical communications (Cambridge, England), 2009, Jun-21, Issue:23

    Topics: Biocatalysis; Catalytic Domain; Electrons; Hydrogen; Hydrogen-Ion Concentration; Hydrogenase; Iron; Iron-Sulfur Proteins; Isotopes; Models, Molecular; Ruthenium; Sulfhydryl Compounds; Water

2009
Critical aspects of [NiFe]hydrogenase ligand composition.
    Dalton transactions (Cambridge, England : 2003), 2009, Jun-14, Issue:22

    Topics: Acetonitriles; Biomimetics; Catalytic Domain; Crystallography, X-Ray; Desulfovibrio gigas; Hydrogen; Hydrogenase; Iron; Ligands; Models, Molecular; Molecular Structure; Nickel; Organometallic Compounds; Ruthenium; Water

2009
Cyclopentadienyl ruthenium-nickel catalysts for biomimetic hydrogen evolution: electrocatalytic properties and mechanistic DFT studies.
    Chemistry (Weinheim an der Bergstrasse, Germany), 2009, Sep-21, Volume: 15, Issue:37

    Topics: Catalysis; Catalytic Domain; Crystallography, X-Ray; Cyclopentanes; Hydrogen; Hydrogenase; Molecular Conformation; Nickel; Ruthenium

2009
Biomimetic and microbial approaches to solar fuel generation.
    Accounts of chemical research, 2009, Dec-21, Volume: 42, Issue:12

    Topics: Biomimetics; Chlorophyta; Cyanobacteria; Electron Transport; Hydrogen; Hydrogenase; Iron; Manganese; Nanoparticles; Oxidation-Reduction; Photosynthesis; Photosystem II Protein Complex; Ruthenium; Solar Energy; Titanium; Water

2009
Efficiency in chemistry: from hydrogen autotransfer to multicomponent catalysis.
    Molecular diversity, 2010, Volume: 14, Issue:3

    Topics: Alcohols; Alkylation; Catalysis; Chemistry, Organic; Ferrosoferric Oxide; Hydrogen; Ketones; Kinetics; Nanoparticles; Particle Size; Ruthenium; Stereoisomerism

2010
Electro-oxidation of carbon monoxide and methanol on bare and Pt-modified Ru(1010) electrodes.
    Physical chemistry chemical physics : PCCP, 2005, Mar-21, Volume: 7, Issue:6

    Topics: Adsorption; Carbon Monoxide; Catalysis; Electrochemistry; Hydrogen; Methanol; Oxygen; Platinum; Ruthenium; Surface Properties

2005
Solar fuels via artificial photosynthesis.
    Accounts of chemical research, 2009, Dec-21, Volume: 42, Issue:12

    Topics: Carotenoids; Fullerenes; Hydrogen; NAD; Photochemical Processes; Photosynthesis; Porphyrins; Ruthenium; Solar Energy; Sunlight; Water

2009
Hydrogen generation from formic acid decomposition with a ruthenium catalyst promoted by functionalized ionic liquids.
    ChemSusChem, 2010, Volume: 3, Issue:1

    Topics: Catalysis; Electric Power Supplies; Formates; Hydrogen; Ionic Liquids; Ruthenium; Solutions; Temperature; Water

2010
Coadsorption of hydrogen and CO on hydrogen pre-covered PtRu/Ru(0001) surface alloys.
    Chemphyschem : a European journal of chemical physics and physical chemistry, 2010, May-17, Volume: 11, Issue:7

    Topics: Adsorption; Alloys; Carbon Monoxide; Hydrogen; Platinum; Ruthenium; Surface Properties

2010
Reductive splitting of cellulose in the ionic liquid 1-butyl-3-methylimidazolium chloride.
    ChemSusChem, 2010, Volume: 3, Issue:1

    Topics: Biocatalysis; Cellobiose; Cellulose; Cycloheptanes; Ethyl Ethers; Hydrogen; Imidazoles; Ionic Liquids; Models, Chemical; Oxidation-Reduction; Ruthenium; Solubility; Sorbitol; Temperature

2010
A water-soluble ruthenium glycosylated porphyrin catalyst for carbenoid transfer reactions in aqueous media with applications in bioconjugation reactions.
    Journal of the American Chemical Society, 2010, Feb-17, Volume: 132, Issue:6

    Topics: Alkenes; Amines; Amino Acid Sequence; Animals; Binding Sites; Catalysis; Cattle; Cyclopropanes; Glycosylation; Hydrogen; Metalloporphyrins; Models, Molecular; Nitrogen; Protein Conformation; Proteins; Ruthenium; Solubility; Sulfur; Water

2010
Thermochemistry and molecular structure of a remarkable agostic interaction in a heterobifunctional ruthenium-boron complex.
    Journal of the American Chemical Society, 2010, Feb-17, Volume: 132, Issue:6

    Topics: Boron; Carbon; Crystallography, X-Ray; Hydrogen; Organometallic Compounds; Ruthenium; Temperature

2010
Solar driven water oxidation by a bioinspired manganese molecular catalyst.
    Journal of the American Chemical Society, 2010, Mar-10, Volume: 132, Issue:9

    Topics: Biomimetic Materials; Catalysis; Electrochemistry; Electrodes; Hydrogen; Manganese; Organometallic Compounds; Oxidation-Reduction; Photochemistry; Ruthenium; Titanium; Water

2010
The useful properties of H2O as a ligand of a hydrogenase mimic.
    Dalton transactions (Cambridge, England : 2003), 2010, Mar-07, Volume: 39, Issue:9

    Topics: Hydrogen; Hydrogenase; Ligands; Molecular Structure; Nickel; Organometallic Compounds; Ruthenium; Stereoisomerism; Water

2010
Concerto catalysis--harmonising [NiFe]hydrogenase and NiRu model catalysts.
    Dalton transactions (Cambridge, England : 2003), 2010, Mar-28, Volume: 39, Issue:12

    Topics: Bacterial Proteins; Catalysis; Desulfovibrio vulgaris; Hydrogen; Hydrogen-Ion Concentration; Hydrogenase; Models, Molecular; Protein Conformation; Ruthenium

2010
Mechanism of hydrogen evolution catalyzed by NiFe hydrogenases: insights from a Ni-Ru model compound.
    Dalton transactions (Cambridge, England : 2003), 2010, Mar-28, Volume: 39, Issue:12

    Topics: Biocatalysis; Catalytic Domain; Enzyme Activation; Hydrogen; Hydrogenase; Models, Molecular; Molecular Structure; Nickel; Oxidation-Reduction; Protein Conformation; Ruthenium

2010
A continuous-flow method for the generation of hydrogen from formic acid.
    ChemSusChem, 2010, Apr-26, Volume: 3, Issue:4

    Topics: Catalysis; Ethylamines; Formates; Hydrogen; Kinetics; Ruthenium; Temperature

2010
Efficient catalytic conversion of concentrated cellulose feeds to hexitols with heteropoly acids and Ru on carbon.
    Chemical communications (Cambridge, England), 2010, May-28, Volume: 46, Issue:20

    Topics: Acids; Carbon; Catalysis; Cellulose; Hydrogen; Ruthenium; Sugar Alcohols

2010
A theoretical study of H(2) dissociation on (sq.rt(3) x sq.rt(3))R30 degrees CO/Ru(0001).
    The Journal of chemical physics, 2010, Apr-14, Volume: 132, Issue:14

    Topics: Adsorption; Carbon Monoxide; Electrons; Hydrogen; Hydrogen Bonding; Models, Chemical; Quantum Theory; Ruthenium; Surface Properties

2010
Metal-catalyzed direct alkylations of (hetero)arenes via C-H bond cleavages with unactivated alkyl halides.
    Chemical communications (Cambridge, England), 2010, Jul-21, Volume: 46, Issue:27

    Topics: Alkylation; Carbon; Catalysis; Halogens; Hydrogen; Metals; Nickel; Palladium; Ruthenium; Stereoisomerism

2010
Method for regio-, chemo- and stereoselective deuterium labeling of sugars based on ruthenium-catalyzed C-H bond activation.
    Chemical communications (Cambridge, England), 2010, Jul-21, Volume: 46, Issue:27

    Topics: Carbohydrates; Carbon; Catalysis; Deuterium; Deuterium Exchange Measurement; Hydrogen; Oxygen; Ruthenium; Stereoisomerism

2010
Ruthenium-catalyzed hydroxylation of unactivated tertiary C-H bonds.
    Journal of the American Chemical Society, 2010, Jul-28, Volume: 132, Issue:29

    Topics: Carbon; Catalysis; Hydrogen; Hydroxylation; Pyridines; Ruthenium

2010
Syntheses, characterization, and photo-hydrogen-evolving properties of tris(2,2'-bipyridine)ruthenium(II) derivatives tethered to an H2-evolving (2-phenylpyridinato)platinum(II) unit.
    Molecules (Basel, Switzerland), 2010, Jul-14, Volume: 15, Issue:7

    Topics: 2,2'-Dipyridyl; Electrons; Hydrogen; Ligands; Photochemical Processes; Platinum; Ruthenium

2010
Hydrido-ruthenium cluster complexes as models for reactive surface hydrogen species of ruthenium nanoparticles. Solid-state 2H NMR and quantum chemical calculations.
    Journal of the American Chemical Society, 2010, Aug-25, Volume: 132, Issue:33

    Topics: Catalysis; Hydrogen; Magnetic Resonance Spectroscopy; Metal Nanoparticles; Molecular Dynamics Simulation; Organometallic Compounds; Quantum Theory; Ruthenium; Surface Properties

2010
"Long-range" metal-ligand cooperation in H2 activation and ammonia-promoted hydride transfer with a ruthenium-acridine pincer complex.
    Journal of the American Chemical Society, 2010, Oct-27, Volume: 132, Issue:42

    Topics: Acridines; Ammonia; Hydrogen; Ligands; Metals; Ruthenium

2010
Ruthenium-catalyzed tertiary amine formation from nitroarenes and alcohols.
    Organic letters, 2010, Nov-05, Volume: 12, Issue:21

    Topics: Alcohols; Amination; Amines; Catalysis; Hydrogen; Molecular Structure; Nitrogen Compounds; Ruthenium

2010
Understanding hydrogen atom transfer: from bond strengths to Marcus theory.
    Accounts of chemical research, 2011, Jan-18, Volume: 44, Issue:1

    Topics: Coordination Complexes; Hydrogen; Hydrogen Bonding; Kinetics; Protons; Ruthenium

2011
Interconversion between formic acid and H(2)/CO(2) using rhodium and ruthenium catalysts for CO(2) fixation and H(2) storage.
    ChemSusChem, 2011, Apr-18, Volume: 4, Issue:4

    Topics: Bicarbonates; Carbon Dioxide; Catalysis; Electrons; Formates; Hydrogen; Hydrogen-Ion Concentration; Hydrogenation; Rhodium; Ruthenium

2011
Synergy between the metal nanoparticles and the support for the hydrogenation of functionalized carboxylic acids to diols on Ru/TiO2.
    Chemical communications (Cambridge, England), 2011, Mar-28, Volume: 47, Issue:12

    Topics: Alcohols; Carboxylic Acids; Catalysis; Hydrogen; Hydrogenation; Metal Nanoparticles; Ruthenium; Substrate Specificity; Titanium

2011
A structurally diverse Ru(II),Pt(II) tetrametallic motif for photoinitiated electron collection and photocatalytic hydrogen production.
    ChemSusChem, 2011, Feb-18, Volume: 4, Issue:2

    Topics: Catalysis; Cations, Divalent; Electrochemistry; Electrons; Hydrogen; Ligands; Light; Organometallic Compounds; Oxidation-Reduction; Photochemistry; Plutonium; Ruthenium; Spectrum Analysis; Water

2011
Dissipative dynamics within the electronic friction approach: the femtosecond laser desorption of H2/D2 from Ru(0001).
    Physical chemistry chemical physics : PCCP, 2011, May-21, Volume: 13, Issue:19

    Topics: Adsorption; Deuterium; Electrons; Hydrogen; Lasers; Quantum Theory; Ruthenium; Surface Properties; Time Factors

2011
Ruthenium catalysts: Splitting with a difference.
    Nature chemistry, 2009, Volume: 1, Issue:3

    Topics: Catalysis; Coordination Complexes; Hydrogen; Oxidation-Reduction; Oxygen; Photosystem II Protein Complex; Ruthenium; Ultraviolet Rays

2009
High turnover in a photocatalytic system for water reduction to produce hydrogen using a Ru,  Rh,  Ru photoinitiated electron collector.
    ChemSusChem, 2011, Apr-18, Volume: 4, Issue:4

    Topics: Aniline Compounds; Catalysis; Electrons; Hydrogen; Organometallic Compounds; Oxidation-Reduction; Photochemical Processes; Rhodium; Ruthenium; Solvents; Water

2011
Design of Ru-zeolites for hydrogen-free production of conjugated linoleic acids.
    ChemSusChem, 2011, Jun-20, Volume: 4, Issue:6

    Topics: Catalysis; Food Additives; Hydrogen; Hygroscopic Agents; Isomerism; Linoleic Acids, Conjugated; Organometallic Compounds; Ruthenium; Zeolites

2011
A hydrogenase model system based on the sequence of cytochrome c: photochemical hydrogen evolution in aqueous media.
    Chemical communications (Cambridge, England), 2011, Aug-07, Volume: 47, Issue:29

    Topics: Amino Acid Sequence; Catalysis; Coordination Complexes; Cytochromes c; Hydrogen; Hydrogen-Ion Concentration; Hydrogenase; Iron; Iron-Sulfur Proteins; Light; Models, Molecular; Photosensitizing Agents; Ruthenium; Water

2011
A TiO₂ nanoparticle system for sacrificial solar H₂ production prepared by rational combination of a hydrogenase with a ruthenium photosensitizer.
    Methods in molecular biology (Clifton, N.J.), 2011, Volume: 743

    Topics: Adsorption; Biocatalysis; Deltaproteobacteria; Electrochemical Techniques; Electrodes; Hydrogen; Hydrogenase; Microelectrodes; Nanoparticles; Photochemical Processes; Photosensitizing Agents; Pyridines; Ruthenium; Spectrum Analysis; Sunlight; Titanium; Water

2011
Synthesis and structure of ruthenium(IV) complexes featuring N-heterocyclic ligands with an N-H group as the hydrogen-bond donor: hydrogen interactions in solution and in the solid state.
    Inorganic chemistry, 2011, Jun-06, Volume: 50, Issue:11

    Topics: Crystallography, X-Ray; Heterocyclic Compounds; Hydrogen; Hydrogen Bonding; Ligands; Molecular Structure; Organometallic Compounds; Ruthenium; Solutions; Stereoisomerism

2011
Impregnated ruthenium on magnetite as a recyclable catalyst for the N-alkylation of amines, sulfonamides, sulfinamides, and nitroarenes using alcohols as electrophiles by a hydrogen autotransfer process.
    The Journal of organic chemistry, 2011, Jul-15, Volume: 76, Issue:14

    Topics: Alcohols; Alkylation; Amides; Amines; Catalysis; Ferrosoferric Oxide; Hydrogen; Molecular Structure; Nitrobenzenes; Particle Size; Ruthenium; Surface Properties

2011
Ruthenium-catalyzed direct C-H bond arylations of heteroarenes.
    Organic letters, 2011, Jul-01, Volume: 13, Issue:13

    Topics: Carbon; Catalysis; Hydrogen; Indoles; Molecular Structure; Pyrroles; Ruthenium

2011
Ru(II) -mediated hydrogen transfer from aqueous glycerol to CO2: from waste to value-added products.
    ChemSusChem, 2011, Sep-19, Volume: 4, Issue:9

    Topics: Carbon Dioxide; Glycerol; Hydrogen; Hydrogenation; Recycling; Ruthenium; Water

2011
sp3 C-H bond activation with ruthenium(II) catalysts and C(3)-alkylation of cyclic amines.
    Journal of the American Chemical Society, 2011, Jul-13, Volume: 133, Issue:27

    Topics: Aldehydes; Alkylation; Amines; Carbon; Catalysis; Hydrogen; Ligands; Phosphines; Ruthenium; Sulfonic Acids

2011
Hydrogen storage in formic acid amine adducts.
    Chimia, 2011, Volume: 65, Issue:4

    Topics: Amines; Catalysis; Formates; Hydrogen; Iron; Organometallic Compounds; Phosphines; Pyridines; Ruthenium; Temperature

2011
Ammonia formation by metal-ligand cooperative hydrogenolysis of a nitrido ligand.
    Nature chemistry, 2011, May-22, Volume: 3, Issue:7

    Topics: Ammonia; Hydrogen; Ligands; Models, Molecular; Molecular Structure; Nitrogen; Organometallic Compounds; Quantum Theory; Ruthenium; Thermodynamics

2011
Oxo-tethered ruthenium(II) complex as a bifunctional catalyst for asymmetric transfer hydrogenation and H2 hydrogenation.
    Journal of the American Chemical Society, 2011, Sep-28, Volume: 133, Issue:38

    Topics: Alcohols; Amides; Catalysis; Hydrogen; Hydrogenation; Ketones; Lactones; Models, Molecular; Molecular Structure; Organometallic Compounds; Ruthenium; Stereoisomerism

2011
Photocatalytic hydrogen evolution under highly basic conditions by using Ru nanoparticles and 2-phenyl-4-(1-naphthyl)quinolinium ion.
    Journal of the American Chemical Society, 2011, Oct-12, Volume: 133, Issue:40

    Topics: Catalysis; Hydrogen; Ions; Nanoparticles; Photolysis; Quinolinium Compounds; Ruthenium

2011
The mechanism of hydrogen uptake in [NiFe] hydrogenase: first-principles molecular dynamics investigation of a model compound.
    Journal of biological inorganic chemistry : JBIC : a publication of the Society of Biological Inorganic Chemistry, 2012, Volume: 17, Issue:1

    Topics: Biocatalysis; Catalytic Domain; Hydrogen; Hydrogenase; Molecular Dynamics Simulation; Nickel; Organometallic Compounds; Quantum Theory; Ruthenium; Water

2012
Biomimetic asymmetric hydrogenation: in situ regenerable Hantzsch esters for asymmetric hydrogenation of benzoxazinones.
    Journal of the American Chemical Society, 2011, Oct-19, Volume: 133, Issue:41

    Topics: Benzoxazines; Biomimetic Materials; Catalysis; Esters; Hydrogen; Hydrogenation; Molecular Structure; Organometallic Compounds; Ruthenium; Stereoisomerism

2011
High electrophilicity at silicon in η3-silane σ-complexes: Lewis base adducts of a silane ligand, featuring octahedral silicon and three Ru-H-Si interactions.
    Journal of the American Chemical Society, 2011, Oct-19, Volume: 133, Issue:41

    Topics: Crystallography, X-Ray; Electrochemistry; Hydrogen; Ligands; Models, Molecular; Molecular Structure; Organometallic Compounds; Quantum Theory; Ruthenium; Silanes; Silicon; Stereoisomerism

2011
Concerted or stepwise hydrogen transfer in the transfer hydrogenation of acetophenone catalyzed by ruthenium-acetamido complex: a theoretical mechanistic investigation.
    The journal of physical chemistry. A, 2011, Nov-10, Volume: 115, Issue:44

    Topics: Acetophenones; Catalysis; Hydrogen; Hydrogenation; Models, Molecular; Organometallic Compounds; Ruthenium; Thermodynamics

2011
Water oxidation by mononuclear ruthenium complexes with TPA-based ligands.
    Inorganic chemistry, 2011, Nov-07, Volume: 50, Issue:21

    Topics: Biomimetics; Cerium; Crystallography, X-Ray; Electrochemistry; Hydrogen; Ligands; Molecular Structure; Organometallic Compounds; Oxidants, Photochemical; Oxidation-Reduction; Oxygen; Photosynthesis; Pyridines; Ruthenium; Thermodynamics; Water

2011
Synthesis of peptides and pyrazines from β-amino alcohols through extrusion of H2 catalyzed by ruthenium pincer complexes: ligand-controlled selectivity.
    Angewandte Chemie (International ed. in English), 2011, Dec-16, Volume: 50, Issue:51

    Topics: Amino Alcohols; Catalysis; Coordination Complexes; Hydrogen; Hydrogenation; Ligands; Organometallic Compounds; Peptides; Pyrazines; Ruthenium; Substrate Specificity

2011
Room-temperature C-H arylation: merger of Pd-catalyzed C-H functionalization and visible-light photocatalysis.
    Journal of the American Chemical Society, 2011, Nov-23, Volume: 133, Issue:46

    Topics: Carbon; Catalysis; Diazonium Compounds; Hydrogen; Light; Molecular Structure; Palladium; Ruthenium; Temperature

2011
Photo-induced H2 production by [NiFe]-hydrogenase from T. roseopersicina covalently linked to a Ru(II) photosensitizer.
    Journal of inorganic biochemistry, 2012, Volume: 106, Issue:1

    Topics: Aerobiosis; Bacterial Proteins; Catalysis; Electrophoresis, Polyacrylamide Gel; Enzyme Activation; Hydrogen; Hydrogenase; Organometallic Compounds; Oxidation-Reduction; Oxygen; Photosensitizing Agents; Photosynthesis; Ruthenium; Thiocapsa roseopersicina

2012
Electronic modification effects induced by Fe in Pt-Ru-Fe ternary catalyst on the electrooxidation of CO/H₂ and methanol.
    Journal of oleo science, 2012, Volume: 61, Issue:3

    Topics: Alloys; Carbon Monoxide; Catalysis; Electrochemistry; Electrons; Hydrogen; Iron; Methanol; Oxidation-Reduction; Platinum; Potentiometry; Ruthenium; X-Ray Diffraction

2012
Simple ligand effects switch a hydrogenase mimic between H2 and O2 activation.
    Chemistry, an Asian journal, 2012, Volume: 7, Issue:6

    Topics: Biomimetic Materials; Borohydrides; Coordination Complexes; Crystallography, X-Ray; Hydrogen; Hydrogenase; Hydroquinones; Ligands; Molecular Conformation; Nickel; Oxygen; Ruthenium

2012
Substrate-mediated enhanced activity of Ru nanoparticles in catalytic hydrogenation of benzene.
    Nanoscale, 2012, Apr-07, Volume: 4, Issue:7

    Topics: Benzene; Carbon; Catalysis; Graphite; Hydrogen; Hydrogenation; Metal Nanoparticles; Models, Biological; Models, Molecular; Ruthenium; Substrate Specificity

2012
Photocatalytic hydrogen evolution by a diiron hydrogenase model based on a peptide fragment of cytochrome c556 with an attached diiron carbonyl cluster and an attached ruthenium photosensitizer.
    Journal of inorganic biochemistry, 2012, Volume: 108

    Topics: Cysteine; Cytochrome c Group; Histidine; Hydrogen; Hydrogenase; Models, Molecular; Photosensitizing Agents; Ruthenium

2012
Mechanism investigation of ketone hydrogenation catalyzed by ruthenium bifunctional catalysts: insights from a DFT study.
    Physical chemistry chemical physics : PCCP, 2012, May-07, Volume: 14, Issue:17

    Topics: Alcohols; Catalysis; Coordination Complexes; Hydrogen; Hydrogenation; Ketones; Ruthenium

2012
Enantioselective C-H crotylation of primary alcohols via hydrohydroxyalkylation of butadiene.
    Science (New York, N.Y.), 2012, Apr-20, Volume: 336, Issue:6079

    Topics: Alcohols; Alkylation; Butadienes; Carbon; Catalysis; Hydrogen; Oxidation-Reduction; Phosphates; Ruthenium; Stereoisomerism; Thermodynamics

2012
Steric effect for proton, hydrogen-atom, and hydride transfer reactions with geometric isomers of NADH-model ruthenium complexes.
    Faraday discussions, 2012, Volume: 155

    Topics: 2,2'-Dipyridyl; Acridines; Coordination Complexes; Electron Transport; Hydrogen; Hydroquinones; Models, Molecular; NAD; Nitrogen; Photochemistry; Protons; Ruthenium; Water

2012
A molecular ruthenium catalyst with water-oxidation activity comparable to that of photosystem II.
    Nature chemistry, 2012, Mar-25, Volume: 4, Issue:5

    Topics: Catalysis; Energy-Generating Resources; Hydrogen; Oxidation-Reduction; Oxygen; Photosystem II Protein Complex; Ruthenium; Water

2012
Enol acetal synthesis through carbenoid C-H insertion into tetrahydrofuran catalyzed by CpRu complexes.
    Angewandte Chemie (International ed. in English), 2012, Jun-11, Volume: 51, Issue:24

    Topics: Acetals; Azo Compounds; Carbon; Catalysis; Coordination Complexes; Furans; Hydrogen; Methane; Ruthenium

2012
Ruthenium-catalyzed selective α,β-deuteration of bioactive amines.
    Journal of the American Chemical Society, 2012, Jul-25, Volume: 134, Issue:29

    Topics: Amines; Catalysis; Deuterium; Deuterium Exchange Measurement; Hydrogen; Pharmaceutical Preparations; Ruthenium; Tandem Mass Spectrometry

2012
Mechanistic insight from activation parameters for the reaction of a ruthenium hydride complex with CO2 in conventional solvents and an ionic liquid.
    Inorganic chemistry, 2012, Jul-02, Volume: 51, Issue:13

    Topics: 2,2'-Dipyridyl; Carbon Dioxide; Coordination Complexes; Hydrogen; Ionic Liquids; Molecular Structure; Pyridines; Ruthenium; Solvents

2012
Photocatalytic hydrogen evolution from carbon-neutral oxalate with 2-phenyl-4-(1-naphthyl)quinolinium ion and metal nanoparticles.
    Physical chemistry chemical physics : PCCP, 2012, Aug-14, Volume: 14, Issue:30

    Topics: Carbon; Catalysis; Electron Transport; Hydrogen; Ions; Metal Nanoparticles; Oxalates; Photolysis; Quinolinium Compounds; Ruthenium

2012
Highly efficient and robust molecular ruthenium catalysts for water oxidation.
    Proceedings of the National Academy of Sciences of the United States of America, 2012, Sep-25, Volume: 109, Issue:39

    Topics: Electrons; Hydrogen; Oxidation-Reduction; Oxygen; Protons; Ruthenium; Water

2012
Heterolytic outer-sphere cleavage of H2 for the reduction of N2 in the coordination sphere of transition metals--a DFT study.
    Angewandte Chemie (International ed. in English), 2012, Aug-13, Volume: 51, Issue:33

    Topics: Ammonia; Hydrogen; Models, Molecular; Nitrogen; Organometallic Compounds; Oxidation-Reduction; Quantum Theory; Ruthenium

2012
Ruthenium amino carboxylate complexes as asymmetric hydrogen transfer catalysts.
    Dalton transactions (Cambridge, England : 2003), 2012, Sep-14, Volume: 41, Issue:34

    Topics: 2-Propanol; Carboxylic Acids; Catalysis; Coordination Complexes; Crystallography, X-Ray; Hydrogen; Ketones; Molecular Conformation; Ruthenium

2012
Synthesis and N-H reductive elimination study of dinuclear ruthenium imido dihydride complexes.
    Journal of the American Chemical Society, 2012, Oct-17, Volume: 134, Issue:41

    Topics: Crystallography, X-Ray; Hydrogen; Imides; Models, Molecular; Molecular Conformation; Organometallic Compounds; Oxidation-Reduction; Ruthenium

2012
A novel ruthenium(II)-cobaloxime supramolecular complex for photocatalytic H2 evolution: synthesis, characterisation and mechanistic studies.
    Dalton transactions (Cambridge, England : 2003), 2012, Nov-14, Volume: 41, Issue:42

    Topics: Acetonitriles; Catalysis; Electrochemistry; Hydrogen; Organometallic Compounds; Photochemical Processes; Ruthenium

2012
The role of bridging ligand in hydrogen generation by photocatalytic Ru/Pd assemblies.
    Dalton transactions (Cambridge, England : 2003), 2012, Nov-14, Volume: 41, Issue:42

    Topics: Catalysis; Hydrogen; Ligands; Palladium; Photochemical Processes; Ruthenium

2012
Ruthenium(0) nanoparticles supported on multiwalled carbon nanotube as highly active catalyst for hydrogen generation from ammonia-borane.
    ACS applied materials & interfaces, 2012, Volume: 4, Issue:11

    Topics: Ammonia; Boranes; Catalysis; Hydrogen; Materials Testing; Metal Nanoparticles; Nanotubes, Carbon; Particle Size; Ruthenium; Temperature

2012
From alcohols to indoles: a tandem Ru catalyzed hydrogen-transfer Fischer indole synthesis.
    Organic letters, 2012, Dec-07, Volume: 14, Issue:23

    Topics: Alcohols; Catalysis; Hydrogen; Indoles; Molecular Structure; Oxidation-Reduction; Phenylhydrazines; Ruthenium

2012
Formic acid dehydrogenation catalysed by ruthenium complexes bearing the tripodal ligands triphos and NP3.
    Dalton transactions (Cambridge, England : 2003), 2013, Feb-21, Volume: 42, Issue:7

    Topics: Biphenyl Compounds; Carbon Dioxide; Catalysis; Formates; Hydrogen; Hydrogenation; Ligands; Molecular Conformation; Organometallic Compounds; Phosphines; Ruthenium

2013
Conversion of (ligno)cellulose feeds to isosorbide with heteropoly acids and Ru on carbon.
    ChemSusChem, 2013, Volume: 6, Issue:1

    Topics: Acids, Noncarboxylic; Carbon; Cellulose; Isosorbide; Lignin; Ruthenium; Sorbitol

2013
Bifunctional ruthenium(II) hydride complexes with pendant strong Lewis acid moieties: structure, dynamics, and cooperativity.
    Journal of the American Chemical Society, 2013, Feb-13, Volume: 135, Issue:6

    Topics: Hydrogen; Lewis Acids; Models, Molecular; Molecular Structure; Organometallic Compounds; Ruthenium; Thermodynamics

2013
Quantum dynamical simulations of the femtosecond-laser-induced ultrafast desorption of H2 and D2 from Ru(0001).
    Chemphyschem : a European journal of chemical physics and physical chemistry, 2013, May-10, Volume: 14, Issue:7

    Topics: Deuterium; Hydrogen; Lasers; Quantum Theory; Ruthenium; Surface Properties; Time Factors

2013
Ruthenium hydride-promoted dienyl isomerization: access to highly substituted 1,3-dienes.
    Journal of the American Chemical Society, 2013, Mar-06, Volume: 135, Issue:9

    Topics: Alkadienes; Alkynes; Hydrogen; Molecular Structure; Organometallic Compounds; Ruthenium; Stereoisomerism

2013
Selective ruthenium-catalyzed transfer hydrogenations of nitriles to amines with 2-butanol.
    Chemistry (Weinheim an der Bergstrasse, Germany), 2013, Apr-02, Volume: 19, Issue:14

    Topics: Alkynes; Amines; Butanols; Catalysis; Combinatorial Chemistry Techniques; Hydrogen; Hydrogenation; Nitriles; Ruthenium

2013
Improving the hydrogen oxidation reaction rate by promotion of hydroxyl adsorption.
    Nature chemistry, 2013, Volume: 5, Issue:4

    Topics: Adsorption; Catalysis; Conservation of Energy Resources; Electrochemistry; Electrodes; Energy-Generating Resources; Gold; Hydrogen; Hydroxyl Radical; Iridium; Oxidation-Reduction; Platinum; Ruthenium

2013
A homogeneous transition metal complex for clean hydrogen production from methanol-water mixtures.
    Nature chemistry, 2013, Volume: 5, Issue:4

    Topics: Aza Compounds; Carbon Dioxide; Catalysis; Hydrogen; Methanol; Models, Molecular; Molecular Structure; Organometallic Compounds; Oxidation-Reduction; Phase Transition; Renewable Energy; Ruthenium; Water

2013
Asymmetric cleavage of 2,2'-pyridil to a picolinic acid anion radical coordinated to ruthenium(II): splitting of water to hydrogen.
    Chemical communications (Cambridge, England), 2013, May-18, Volume: 49, Issue:40

    Topics: Anions; Free Radicals; Hydrogen; Models, Molecular; Molecular Structure; Picolinic Acids; Pyridines; Ruthenium; Water

2013
[Ru(IV)(F20-TPP)Cl2] efficiently catalysed inter- and intra-molecular nitrene insertion into sp3 C-H bonds of hydrocarbons using phosphoryl azides as nitrene sources.
    Chemical communications (Cambridge, England), 2013, May-21, Volume: 49, Issue:41

    Topics: Azides; Carbon; Catalysis; Coordination Complexes; Hydrocarbons; Hydrogen; Porphyrins; Quantum Theory; Ruthenium

2013
Catalytic hydrogen production by a Ni-Ru mimic of NiFe hydrogenases involves a proton-coupled electron transfer step.
    Chemical communications (Cambridge, England), 2013, Jun-04, Volume: 49, Issue:44

    Topics: Biomimetic Materials; Catalysis; Catalytic Domain; Coordination Complexes; Electron Transport; Electrons; Hydrogen; Hydrogenase; Oxidation-Reduction; Protons; Ruthenium

2013
Ru(II)-catalyzed intermolecular C-H amidation of weakly coordinating ketones.
    Chemical communications (Cambridge, England), 2013, Jun-25, Volume: 49, Issue:50

    Topics: Azides; Carbon; Catalysis; Hydrogen; Ketones; Ruthenium

2013
Ruthenium(II)/N-heterocyclic carbene catalyzed [3+2] carbocyclization with aromatic N-H ketimines and internal alkynes.
    Angewandte Chemie (International ed. in English), 2013, Jun-24, Volume: 52, Issue:26

    Topics: Alkynes; Amines; Carbon; Catalysis; Hydrogen; Hydrogen Bonding; Imines; Ligands; Metals; Methane; Nitriles; Nitrogen; Protons; Ruthenium; Temperature

2013
A Ru-η6-arene complex as a C-based Lewis acid in the activation of hydrogen and hydrogenation catalysis.
    Journal of the American Chemical Society, 2013, Jun-12, Volume: 135, Issue:23

    Topics: Boranes; Catalysis; Crystallography, X-Ray; Hydrogen; Hydrogenation; Lewis Acids; Models, Molecular; Molecular Conformation; Organometallic Compounds; Quantum Theory; Ruthenium

2013
Ruthenium-catalyzed self-coupling of primary and secondary alcohols with the liberation of dihydrogen.
    The Journal of organic chemistry, 2013, Jul-05, Volume: 78, Issue:13

    Topics: Alcohols; Catalysis; Hydrogen; Ketones; Molecular Structure; Organometallic Compounds; Ruthenium

2013
Direct synthesis of pyridines and quinolines by coupling of γ-amino-alcohols with secondary alcohols liberating H2 catalyzed by ruthenium pincer complexes.
    Chemical communications (Cambridge, England), 2013, Jul-28, Volume: 49, Issue:59

    Topics: Alcohols; Catalysis; Hydrogen; Molecular Conformation; Organometallic Compounds; Pyridines; Quinolines; Ruthenium

2013
Conversion of cellulose into isosorbide over bifunctional ruthenium nanoparticles supported on niobium phosphate.
    ChemSusChem, 2013, Volume: 6, Issue:11

    Topics: Cellulose; Isosorbide; Metal Nanoparticles; Niobium; Phosphates; Ruthenium

2013
Ruthenium hydride/Brønsted acid-catalyzed tandem isomerization/N-acyliminium cyclization sequence for the synthesis of tetrahydro-β-carbolines.
    The Journal of organic chemistry, 2013, Dec-20, Volume: 78, Issue:24

    Topics: Acids; Carbolines; Catalysis; Cyclization; Hydrogen; Molecular Structure; Organometallic Compounds; Ruthenium; Stereoisomerism

2013
Ruthenium-catalyzed ortho-C-H halogenations of benzamides.
    Chemical communications (Cambridge, England), 2014, Feb-04, Volume: 50, Issue:9

    Topics: Benzamides; Carbon; Catalysis; Coordination Complexes; Halogenation; Hydrogen; Ruthenium; Silver

2014
Solid solution alloy nanoparticles of immiscible Pd and Ru elements neighboring on Rh: changeover of the thermodynamic behavior for hydrogen storage and enhanced CO-oxidizing ability.
    Journal of the American Chemical Society, 2014, Feb-05, Volume: 136, Issue:5

    Topics: Alloys; Carbon Monoxide; Catalysis; Hydrogen; Microscopy, Electron, Transmission; Nanoparticles; Oxidation-Reduction; Palladium; Rhodium; Ruthenium; Surface Properties; Thermodynamics

2014
Catalytic upgrading of duckweed biocrude in subcritical water.
    Bioresource technology, 2014, Volume: 166

    Topics: Araceae; Biofuels; Biotechnology; Carbon; Catalysis; China; Hot Temperature; Hydrogen; Mass Spectrometry; Platinum; Ruthenium; Spectroscopy, Fourier Transform Infrared; Water

2014
Hydrogen production from ammonia using sodium amide.
    Journal of the American Chemical Society, 2014, Sep-24, Volume: 136, Issue:38

    Topics: Amides; Ammonia; Catalysis; Hydrogen; Models, Molecular; Nickel; Ruthenium; Sodium; Temperature

2014
Ruthenium-catalyzed N-alkylation of amines with alcohols under mild conditions using the borrowing hydrogen methodology.
    The Journal of organic chemistry, 2014, Aug-15, Volume: 79, Issue:16

    Topics: Alcohols; Alkylation; Amines; Catalysis; Hydrogen; Ligands; Molecular Structure; Ruthenium; Solvents

2014
Efficient and selective hydrogen generation from bioethanol using ruthenium pincer-type complexes.
    ChemSusChem, 2014, Volume: 7, Issue:9

    Topics: Biofuels; Catalysis; Ethanol; Hydrogen; Organometallic Compounds; Ruthenium; Substrate Specificity

2014
Carbene based photochemical molecular assemblies for solar driven hydrogen generation.
    Dalton transactions (Cambridge, England : 2003), 2014, Sep-28, Volume: 43, Issue:36

    Topics: Catalysis; Coordination Complexes; Electrochemical Techniques; Heterocyclic Compounds; Hydrogen; Ligands; Light; Methane; Molecular Conformation; Pyridines; Ruthenium; Silver; Spectrophotometry

2014
Highly enantioselective hydrogenation of N-aryl imines derived from acetophenones by using Ru-pybox complexes under hydrogenation or transfer hydrogenation conditions in isopropanol.
    Chemistry (Weinheim an der Bergstrasse, Germany), 2015, Jan-07, Volume: 21, Issue:2

    Topics: 2-Propanol; Acetophenones; Catalysis; Coordination Complexes; Hydrogen; Hydrogenation; Imines; Phosphites; Pyridines; Ruthenium; Stereoisomerism

2015
Enantiotopos-selective C-H oxygenation catalyzed by a supramolecular ruthenium complex.
    Angewandte Chemie (International ed. in English), 2015, Jan-07, Volume: 54, Issue:2

    Topics: Carbon; Catalysis; Hydrogen; Oxygen; Ruthenium; Stereoisomerism

2015
[Ru
    Dalton transactions (Cambridge, England : 2003), 2015, 01-21, Volume: 44, Issue:3

    Topics: Carbon; Catalysis; Coordination Complexes; Hydrogen; Hydrogen-Ion Concentration; Molecular Conformation; NAD; Nitrates; Oxidation-Reduction; Ruthenium; Water

2015
Thiolate-bridged dinuclear ruthenium and iron complexes as robust and efficient catalysts toward oxidation of molecular dihydrogen in protic solvents.
    Journal of the American Chemical Society, 2015, Apr-01, Volume: 137, Issue:12

    Topics: Catalysis; Coordination Complexes; Hydrogen; Iron; Methanol; Models, Molecular; Oxidation-Reduction; Ruthenium; Solvents; Sulfhydryl Compounds; Water

2015
Ruthenium-catalyzed C-C coupling of fluorinated alcohols with allenes: dehydrogenation at the energetic limit of β-hydride elimination.
    Angewandte Chemie (International ed. in English), 2015, Apr-27, Volume: 54, Issue:18

    Topics: Alkadienes; Carbon; Catalysis; Hydrocarbons, Fluorinated; Hydrogen; Hydrogenation; Molecular Structure; Oxidation-Reduction; Propanols; Ruthenium; Stereoisomerism

2015
A ruthenium-based biomimetic hydrogen cluster for efficient photocatalytic hydrogen generation from formic acid.
    Chemistry (Weinheim an der Bergstrasse, Germany), 2015, Apr-20, Volume: 21, Issue:17

    Topics: Biomimetics; Catalysis; Formates; Hydrogen; Ligands; Phosphines; Photochemical Processes; Ruthenium; Temperature

2015
Mechanistic investigations of the catalytic formation of lactams from amines and water with liberation of H2.
    Journal of the American Chemical Society, 2015, Apr-15, Volume: 137, Issue:14

    Topics: Acridines; Amines; Catalysis; Hydrogen; Isomerism; Lactams; Ligands; Models, Molecular; Molecular Conformation; Organometallic Compounds; Ruthenium; Water

2015
Mechanistic insights into the reactions of hydride transfer versus hydrogen atom transfer by a trans-dioxoruthenium(VI) complex.
    Dalton transactions (Cambridge, England : 2003), 2015, Apr-28, Volume: 44, Issue:16

    Topics: Coordination Complexes; Electron Transport; Hydrogen; Isomerism; NAD; Oxidation-Reduction; Protons; Ruthenium; Spectrophotometry, Ultraviolet; Xanthenes

2015
Amine-free reversible hydrogen storage in formate salts catalyzed by ruthenium pincer complex without pH control or solvent change.
    ChemSusChem, 2015, Apr-24, Volume: 8, Issue:8

    Topics: Amines; Bicarbonates; Carbon Dioxide; Catalysis; Formates; Hydrogen; Hydrogen-Ion Concentration; Hydrogenation; Models, Molecular; Molecular Conformation; Organometallic Compounds; Pressure; Ruthenium; Solvents

2015
Hydrogen Production from Aqueous Solutions of Urea with Ruthenium-based Catalysts.
    ChemSusChem, 2015, Jun-22, Volume: 8, Issue:12

    Topics: Catalysis; Hydrogen; Ruthenium; Solutions; Urea; Water

2015
C-O cleavage of aromatic oxygenates over ruthenium catalysts. A computational study of reactions at step sites.
    Physical chemistry chemical physics : PCCP, 2015, Jun-21, Volume: 17, Issue:23

    Topics: Carbon; Catalysis; Catechols; Guaiacol; Hydrogen; Hydroxybenzoates; Models, Molecular; Oxygen; Ruthenium; Thermodynamics

2015
Aqueous light driven hydrogen production by a Ru-ferredoxin-Co biohybrid.
    Chemical communications (Cambridge, England), 2015, Jul-07, Volume: 51, Issue:53

    Topics: Ascorbic Acid; Catalysis; Electron Transport; Ferredoxins; Hydrogen; Light; Organometallic Compounds; Photoelectron Spectroscopy; Photosensitizing Agents; Ruthenium

2015
Ruthenium pincer-catalyzed synthesis of substituted γ-butyrolactones using hydrogen autotransfer methodology.
    Chemical communications (Cambridge, England), 2015, Aug-25, Volume: 51, Issue:66

    Topics: 4-Butyrolactone; Catalysis; Chemistry Techniques, Synthetic; Hydrogen; Ruthenium

2015
Bioinduced Room-Temperature Methanol Reforming.
    Angewandte Chemie (International ed. in English), 2015, Aug-24, Volume: 54, Issue:35

    Topics: Formaldehyde; Hydrogen; Hydrogenation; Methanol; Oxidoreductases; Ruthenium; Temperature

2015
Scope and Mechanistic Analysis for Chemoselective Hydrogenolysis of Carbonyl Compounds Catalyzed by a Cationic Ruthenium Hydride Complex with a Tunable Phenol Ligand.
    Journal of the American Chemical Society, 2015, Sep-02, Volume: 137, Issue:34

    Topics: Aldehydes; Catalysis; Cations; Hydrocarbons; Hydrogen; Ketones; Ligands; Molecular Structure; Organometallic Compounds; Phenols; Ruthenium

2015
Formation and nitrile hydrogenation performance of Ru nanoparticles on a K-doped Al2O3 surface.
    Physical chemistry chemical physics : PCCP, 2015, Oct-14, Volume: 17, Issue:38

    Topics: Aluminum Oxide; Catalysis; Hydrogen; Hydrogenation; Metal Nanoparticles; Nitriles; Potassium; Ruthenium; Spectroscopy, Fourier Transform Infrared; Surface Properties

2015
Mechanism and Mitigation of the Decomposition of an Oxorhenium Complex-Based Heterogeneous Catalyst for Perchlorate Reduction in Water.
    Environmental science & technology, 2015, Nov-03, Volume: 49, Issue:21

    Topics: Catalysis; Charcoal; Hydrogen; Kinetics; Metal Nanoparticles; Oxidation-Reduction; Palladium; Perchlorates; Rhenium; Rhodium; Ruthenium; Solubility; Water; Water Pollutants, Chemical; Water Purification

2015
Unravelling the Ru-Catalyzed Hydrogenolysis of Biomass-Based Polyols under Neutral and Acidic Conditions.
    ChemSusChem, 2015, Oct-12, Volume: 8, Issue:19

    Topics: Biomass; Catalysis; Cellulose; Hydrogen; Hydrogen-Ion Concentration; Polymers; Ruthenium; Stereoisomerism

2015
CuAAC click reactions for the design of multifunctional luminescent ruthenium complexes.
    Dalton transactions (Cambridge, England : 2003), 2016, Feb-14, Volume: 45, Issue:6

    Topics: 2,2'-Dipyridyl; Alkynes; Azides; Catalysis; Click Chemistry; Coloring Agents; Coordination Complexes; Copper; Cycloaddition Reaction; Hydrogen; Light; Oxidation-Reduction; Photosensitizing Agents; Ruthenium; Solar Energy; Somatostatin

2016
Catalytic Hydrotreatment of Humins in Mixtures of Formic Acid/2-Propanol with Supported Ruthenium Catalysts.
    ChemSusChem, 2016, 05-10, Volume: 9, Issue:9

    Topics: 2-Propanol; Catalysis; Formates; Humic Substances; Hydrogen; Ruthenium

2016
Selective Hydrogen Generation from Formic Acid with Well-Defined Complexes of Ruthenium and Phosphorus-Nitrogen PN(3) -Pincer Ligand.
    Chemistry, an Asian journal, 2016, 05-06, Volume: 11, Issue:9

    Topics: Formates; Hydrogen; Ligands; Molecular Conformation; Nitrogen; Organometallic Compounds; Phosphorus; Ruthenium

2016
The contrasting catalytic efficiency and cancer cell antiproliferative activity of stereoselective organoruthenium transfer hydrogenation catalysts.
    Dalton transactions (Cambridge, England : 2003), 2016, May-28, Volume: 45, Issue:20

    Topics: Antineoplastic Agents; Catalysis; Cell Cycle Checkpoints; Cell Line, Tumor; Cell Proliferation; Cell Survival; Coordination Complexes; Drug Screening Assays, Antitumor; Humans; Hydrogen; Hydrogenation; Ruthenium; Stereoisomerism; Structure-Activity Relationship; Tubulin

2016
Cytotoxic hydrogen bridged ruthenium quinaldamide complexes showing induced cancer cell death by apoptosis.
    Dalton transactions (Cambridge, England : 2003), 2016, Aug-16, Volume: 45, Issue:33

    Topics: Antineoplastic Agents; Apoptosis; Cell Line; Cell Line, Tumor; Coordination Complexes; Cymenes; Humans; Hydrogen; Monoterpenes; Ruthenium

2016
From Barley Straw to Valuable Polyols: A Sustainable Process Using Ethanol/Water Mixtures and Hydrogenolysis over Ruthenium-Tungsten Catalyst.
    ChemSusChem, 2016, Oct-06, Volume: 9, Issue:19

    Topics: Biomass; Catalysis; Cellulose; Ethanol; Hordeum; Hydrogen; Lignin; Polymers; Ruthenium; Tungsten; Water

2016
Bioorthogonal Diversification of Peptides through Selective Ruthenium(II)-Catalyzed C-H Activation.
    Angewandte Chemie (International ed. in English), 2017, 02-01, Volume: 56, Issue:6

    Topics: Amino Acids; Carboxylic Acids; Catalysis; Fluorescent Dyes; Hydrocarbons, Aromatic; Hydrogen; Palladium; Peptides; Ruthenium

2017
An Efficient and Reusable Embedded Ru Catalyst for the Hydrogenolysis of Levulinic Acid to γ-Valerolactone.
    ChemSusChem, 2017, 04-22, Volume: 10, Issue:8

    Topics: Catalysis; Hydrogen; Lactones; Levulinic Acids; Microscopy, Electron, Transmission; Photoelectron Spectroscopy; Porosity; Ruthenium; Surface Properties; Thermodynamics; X-Ray Diffraction

2017
Effective depolymerization of concentrated acid hydrolysis lignin using a carbon-supported ruthenium catalyst in ethanol/formic acid media.
    Bioresource technology, 2017, Volume: 234

    Topics: Biofuels; Catalysis; Ethanol; Formates; Hydrogen; Hydrolysis; Lignin; Palm Oil; Plant Oils; Polymerization; Ruthenium; Solvents

2017
Carbonyl anti-(α-Amino)allylation via Ruthenium Catalyzed Hydrogen Autotransfer: Use of an Acetylenic Pyrrole as an Allylmetal Pronucleophile.
    Organic letters, 2017, 09-15, Volume: 19, Issue:18

    Topics: Alkynes; Catalysis; Hydrogen; Molecular Structure; Pyrroles; Ruthenium; Stereoisomerism

2017
Light-Driven Hydrogen Evolution by Nickel-Substituted Rubredoxin.
    ChemSusChem, 2017, 11-23, Volume: 10, Issue:22

    Topics: Catalysis; Coordination Complexes; Electron Transport; Hydrogen; Light; Nickel; Photochemical Processes; Rubredoxins; Ruthenium; Solar Energy; Water

2017
Nickel-ruthenium-based complexes as biomimetic models of [NiFe] and [NiFeSe] hydrogenases for dihydrogen evolution.
    Dalton transactions (Cambridge, England : 2003), 2017, Oct-10, Volume: 46, Issue:39

    Topics: Acetic Acid; Acetonitriles; Biomimetic Materials; Catalysis; Catalytic Domain; Coordination Complexes; Crystallography, X-Ray; Electrochemical Techniques; Hydrogen; Hydrogenase; Molecular Conformation; Nickel; Ruthenium

2017
Protic NNN and NCN Pincer-Type Ruthenium Complexes Featuring (Trifluoromethyl)pyrazole Arms: Synthesis and Application to Catalytic Hydrogen Evolution from Formic Acid.
    Chemistry, an Asian journal, 2018, Jan-04, Volume: 13, Issue:1

    Topics: Catalysis; Formates; Hydrogen; Molecular Structure; Organometallic Compounds; Pyrazoles; Ruthenium

2018
Across the Board: Xinchen Wang.
    ChemSusChem, 2018, 01-10, Volume: 11, Issue:1

    Topics: Catalysis; Hydrogen; Molybdenum; Oxygen; Ruthenium; Strontium; Titanium; Water

2018
C-H Activation Enables a Concise Total Synthesis of Quinine and Analogues with Enhanced Antimalarial Activity.
    Angewandte Chemie (International ed. in English), 2018, 08-13, Volume: 57, Issue:33

    Topics: Aldehydes; Animals; Antimalarials; Carbon; Catalysis; Crystallography, X-Ray; Hydrogen; Malaria; Mice; Molecular Conformation; Plasmodium berghei; Quinine; Ruthenium; Stereoisomerism

2018
Ruthenium-Catalyzed C-H Allylation of Alkenes with Allyl Alcohols via C-H Bond Activation in Aqueous Solution.
    The Journal of organic chemistry, 2018, 10-05, Volume: 83, Issue:19

    Topics: Alkenes; Carbon; Catalysis; Hydrogen; Propanols; Ruthenium; Solutions; Stereoisomerism; Water

2018
Morphology-Dependent Catalytic Activity of Ru/CeO₂ in Dry Reforming of Methane.
    Molecules (Basel, Switzerland), 2019, Feb-01, Volume: 24, Issue:3

    Topics: Adsorption; Carbon Dioxide; Catalysis; Cerium; Chemistry Techniques, Synthetic; Hydrogen; Methane; Nanoparticles; Oxidation-Reduction; Oxygen; Ruthenium

2019
Late-stage peptide C-H alkylation for bioorthogonal C-H activation featuring solid phase peptide synthesis.
    Nature communications, 2019, 08-07, Volume: 10, Issue:1

    Topics: Alkylation; Carbon; Catalysis; Hydrogen; Hydrogen Bonding; Peptides; Ruthenium; Solid-Phase Synthesis Techniques

2019
A photosynthesis-inspired supramolecular system: caging photosensitizer and photocatalyst in apoferritin.
    Photosynthesis research, 2019, Volume: 142, Issue:2

    Topics: Apoferritins; Catalysis; Electron Transport; Hydrogen; Hydrogen-Ion Concentration; Luminescence; Nanocomposites; Photosensitizing Agents; Photosynthesis; Ruthenium; Spectrophotometry, Ultraviolet

2019
Intramolecular Electron Transfer Governs Photoinduced Hydrogen Evolution by Nickel-Substituted Rubredoxin: Resolving Elementary Steps in Solar Fuel Generation.
    The journal of physical chemistry. B, 2019, 11-21, Volume: 123, Issue:46

    Topics: Catalysis; Electron Transport; Hydrogen; Kinetics; Nickel; Oxidation-Reduction; Recombinant Proteins; Rubredoxins; Ruthenium; Solar Energy; Sunlight

2019
Ruthenium-Catalyzed C-H Arylation of 1-Naphthol with Aryl and Heteroaryl Halides.
    The Journal of organic chemistry, 2019, 12-06, Volume: 84, Issue:23

    Topics: Carbon; Catalysis; Heterocyclic Compounds; Hydrocarbons, Halogenated; Hydrogen; Molecular Structure; Naphthols; Ruthenium

2019
Hydrogen Isotope Exchange Catalyzed by Ru Nanocatalysts: Labelling of Complex Molecules Containing N-Heterocycles and Reaction Mechanism Insights.
    Chemistry (Weinheim an der Bergstrasse, Germany), 2020, Apr-16, Volume: 26, Issue:22

    Topics: Catalysis; Deuterium; Heterocyclic Compounds; Hydrogen; Imidazoles; Ruthenium

2020
Interprotein electron transfer biohybrid system for photocatalytic H
    Photosynthesis research, 2020, Volume: 143, Issue:2

    Topics: Anabaena; Catalysis; Catalytic Domain; Electron Transport; Ferredoxin-NADP Reductase; Hydrogen; Light; NADP; Osmolar Concentration; Photosensitizing Agents; Ruthenium; Time Factors

2020
Non-Heme-Type Ruthenium Catalyzed Chemo- and Site-Selective C-H Oxidation.
    Chemistry, an Asian journal, 2020, Mar-16, Volume: 15, Issue:6

    Topics: Carbon; Catalysis; Coordination Complexes; Crystallography, X-Ray; Heme; Hydrogen; Oxidation-Reduction; Ruthenium; Stereoisomerism

2020
Electrochemical Ruthenium-Catalyzed C-H Hydroxylation of Amine Derivatives in Aqueous Acid.
    Organic letters, 2020, 09-18, Volume: 22, Issue:18

    Topics: Amines; Catalysis; Hydrogen; Hydroxylation; Molecular Structure; Oxidation-Reduction; Protons; Ruthenium; Solvents; Water

2020
The Influence of Carbon Nature on the Catalytic Performance of Ru/C in Levulinic Acid Hydrogenation with Internal Hydrogen Source.
    Molecules (Basel, Switzerland), 2020, Nov-17, Volume: 25, Issue:22

    Topics: Ammonia; Carbon; Carbon Dioxide; Carbon Monoxide; Catalysis; Formates; Hydrogen; Hydrogenation; Levulinic Acids; Particle Size; Ruthenium; Spectrum Analysis, Raman; Temperature; X-Ray Diffraction

2020
Ruthenium-Catalyzed Deuteration of Aromatic Carbonyl Compounds with a Catalytic Transient Directing Group.
    Chemistry (Weinheim an der Bergstrasse, Germany), 2021, Jul-07, Volume: 27, Issue:38

    Topics: Amines; Catalysis; Hydrogen; Iridium; Ruthenium

2021
Natural DNA-assisted RuP
    Chemical communications (Cambridge, England), 2021, Jul-28, Volume: 57, Issue:59

    Topics: Animals; Catalysis; DNA, Single-Stranded; Graphite; Hydrogen; Hydrogen-Ion Concentration; Nitrogen; Phosphorus; Photoelectron Spectroscopy; Ruthenium; Salmon

2021
Low-Temperature Methanol-Water Reforming Over Alcohol Dehydrogenase and Immobilized Ruthenium Complex.
    ChemSusChem, 2021, Sep-20, Volume: 14, Issue:18

    Topics: Alcohol Dehydrogenase; Carbon Dioxide; Catalysis; Cold Temperature; Coordination Complexes; Formaldehyde; Hydrogen; Kinetics; Methanol; Models, Chemical; NAD; Oxidation-Reduction; Ruthenium; Surface Properties; Thermodynamics; Triazines; Water

2021
Nanoscaled and Atomic Ruthenium Electrocatalysts Confined Inside Super-Hydrophilic Carbon Nanofibers for Efficient Hydrogen Evolution Reaction.
    Small (Weinheim an der Bergstrasse, Germany), 2021, Volume: 17, Issue:38

    Topics: Carbon; Hydrogen; Hydrophobic and Hydrophilic Interactions; Nanofibers; Ruthenium

2021
Hydrogen Production from Formaldehyde and Paraformaldehyde in Water under Additive-Free Conditions: Catalytic Reactions and Mechanistic Insights.
    Inorganic chemistry, 2022, Mar-21, Volume: 61, Issue:11

    Topics: Formaldehyde; Hydrogen; Polymers; Ruthenium; Water

2022
Intermolecular diastereoselective annulation of azaarenes into fused N-heterocycles by Ru(II) reductive catalysis.
    Nature communications, 2022, 05-02, Volume: 13, Issue:1

    Topics: Catalysis; Hydrogen; Ruthenium; Stereoisomerism

2022
Stereo- and Site-Selective Conversion of Primary Alcohols to Allylic Alcohols via Ruthenium-Catalyzed Hydrogen Auto-Transfer Mediated by 2-Butyne.
    Journal of the American Chemical Society, 2022, 05-18, Volume: 144, Issue:19

    Topics: Alcohols; Aldehydes; Catalysis; Hydrogen; Ruthenium; Stereoisomerism

2022
2D Network overtakes 3D for photocatalytic hydrogen evolution.
    Chemical communications (Cambridge, England), 2022, Aug-18, Volume: 58, Issue:67

    Topics: Catalysis; Cobalt; Hydrogen; Protons; Ruthenium

2022
Hydration of Nitriles Catalyzed by Ruthenium Complexes: Role of Dihydrogen Bonding Interactions in Promoting Base-Free Catalysis.
    Inorganic chemistry, 2022, Oct-03, Volume: 61, Issue:39

    Topics: Amides; Catalysis; Chlorides; Hydrogen; Isoquinolines; Nitriles; Pyridines; Quinolines; Ruthenium; Water

2022
Stereo- and Site-Selective Crotylation of Alcohol Proelectrophiles via Ruthenium-Catalyzed Hydrogen Auto-Transfer Mediated by Methylallene and Butadiene.
    Angewandte Chemie (International ed. in English), 2022, 12-05, Volume: 61, Issue:49

    Topics: Alcohols; Butadienes; Catalysis; Ethanol; Hydrogen; Molecular Structure; Ruthenium; Stereoisomerism

2022
Rethinking Electronic Effects in Photochemical Hydrogen Evolution Using CuInS
    Molecules (Basel, Switzerland), 2022, Nov-27, Volume: 27, Issue:23

    Topics: Catalysis; Cobalt; Coordination Complexes; Hydrogen; Quantum Dots; Ruthenium; Water

2022
Ruthenium-Catalyzed Reductive Coupling of Epoxides with Primary Alcohols via Hydrogen Transfer Catalysis.
    The Journal of organic chemistry, 2023, 01-06, Volume: 88, Issue:1

    Topics: Alcohols; Catalysis; Epoxy Compounds; Ethanol; Hydrogen; Ruthenium

2023
A Mechanism Study of Redox Reactions of the Ruthenium-oxo-polypyridyl Complex.
    Molecules (Basel, Switzerland), 2023, May-28, Volume: 28, Issue:11

    Topics: Hydrogen; Organometallic Compounds; Oxidation-Reduction; Oxides; Ruthenium

2023
Effect of reaction path on high-pressure synthesis and stability of ruthenium hydrides.
    Journal of physics. Condensed matter : an Institute of Physics journal, 2023, Jul-14, Volume: 35, Issue:41

    Topics: Hydrogen; Ruthenium; Temperature

2023