chlorine has been researched along with furaldehyde in 28 studies
Timeframe | Studies, this research(%) | All Research% |
---|---|---|
pre-1990 | 1 (3.57) | 18.7374 |
1990's | 0 (0.00) | 18.2507 |
2000's | 1 (3.57) | 29.6817 |
2010's | 25 (89.29) | 24.3611 |
2020's | 1 (3.57) | 2.80 |
Authors | Studies |
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Bonitati, J; Elliott, WB; Miles, PG | 1 |
Ying, JY; Yong, G; Zhang, Y | 1 |
Zhang, Z; Zhao, ZK | 2 |
Aida, TM; Qi, X; Smith, RL; Watanabe, M | 1 |
Cao, Q; Guan, J; Guo, X; Mu, X; Wang, X; Yao, S; Zhang, D | 1 |
Cheng, S; Leitch, M; Xu, CC; Yuan, Z | 1 |
Ding, X; Li, Y; Ma, X; Qu, Y; Rong, C; Wang, L; Wang, Z; Zhu, Y | 1 |
Abu-Omar, MM; Hu, CW; Yang, Y | 1 |
Cui, X; Deng, T; Hou, X; Qi, Y; Wang, Y; Zhu, Y | 1 |
Gao, N; Li, A; Mao, L; Zhang, L | 1 |
Rauchfuss, TB; Zhou, X | 1 |
Dong, H; Peng, X; Wang, P; Yu, H; Zhang, L | 1 |
Deng, K; Liu, B; Xu, Z; Zhang, Z; Zhou, X | 1 |
Deng, T; Hou, X; Pedersen, CM; Qiao, Y; Wang, Y | 1 |
Jung, SH; Kim, JS; Oh, SJ | 1 |
Cai, Q; Leng, S; Liu, Y; Ma, F; Wang, J; Wang, X | 1 |
Li, Y; Wang, P; Yu, H; Zhang, L | 1 |
Fang, Z; Liu, B; Wang, Y; Xiao, S; Zhang, Z | 1 |
Dyson, PJ; Fei, Z; Katsyuba, S; Laurenczy, G; Scopelliti, R; Siankevich, S; Yan, N | 1 |
Deng, T; Hou, X; Pedersen, CM; Qiao, Y; Shi, J; Wang, Y | 1 |
Fan, X; Li, H; Tang, P; Wang, S; Yuan, Q; Zhang, J | 1 |
Rose, M; Schute, K | 1 |
Artz, J; Palkovits, R | 1 |
Chen, SS; Ok, YS; Poon, CS; Tsang, DCW; Yip, ACK; Yu, IKM | 1 |
Chen, JJ; Hu, ZY; Jiang, YQ; Liu, L; Shen, XJ; Wang, X; Wang, ZK | 1 |
Abayaweera, G; Abou-Taleb, HA; AbouElhassan, KM; AbouTaleb, HA; Adair, LS; Adams, E; Addison, O; Addy, I; Akhtar, N; Alten, B; Anesini, J; Añez, R; Angaridis, PA; Aouba, A; Arakawa, K; Aumeeruddy-Elalfi, Z; Bao, LP; Basu, E; Bayraktar, E; Bekkelund, CS; Bell, J; Beraldo, H; Bermúdez, V; Betenbaugh, MJ; Bhattacharya, R; Bienvenu, B; Bolzoni, M; Bootz, F; Borja, JB; Bove, DG; Bowden, ME; Bradsher, C; Brockstedt, D; Brothers, RM; Buschauer, A; Calandriello, L; Caporossi, A; Carba, DB; Carratalà, J; Castella, B; Caviezel, D; Ceccato, R; Charalambidis, G; Charisiadis, A; Chattopadhyay, P; Chen, Q; Chen, W; Chen, Y; Chen, YT; Chen, ZJ; Chen, ZY; Cheng, MA; Cheng, ZB; Cherevko, S; Cheung, IY; Cheung, NV; Chiappini, A; Chiu, YL; Choi, IG; Chough, S; Chung, CY; Cobb, A; Colotto, A; Continentino, MA; Cook, AJMC; Costa, F; Coutsolelos, AG; Cuperus, N; Curtis, BM; Davenport, AJ; de Boysson, H; Dela, F; Deng, XP; Deshayes, S; Dhara, K; Dietrich, D; Dietrich, J; Dilhari, A; Ding, R; Ding, Y; Dirè, S; Dohlmann, TL; Dotsenko, A; Doubrovina, E; Du, K; Du, ZJ; Duvic, M; Eastman, A; Eliakim-Raz, N; Elz, S; Emile, JF; Emmerling, C; Engelhard, MH; Eriksson, JG; Etzold, BJM; Faini, AC; Falsini, B; Farmer, E; Fei, JJ; Ferreira, IP; Föttinger, K; Franconieri, F; Fryda, NJ; Fuentes, I; Galateau-Sallé, F; Ganguly, M; Gani, BA; Gao, X; Gao, XF; Gao, XJ; García-Mendiola, T; Garg, A; Gascon, J; Gayani, B; Gevensleben, H; Gilbert, M; Giudiceandrea, A; Giuliani, N; Gocmen, AY; Goldman, DA; Goltz, D; Gombert, AK; Gomila, A; Goodwin, P; Górnicki, K; Gostin, PF; Graterol, M; Gremillet, C; Grier, S; Grün, AL; Gusakov, A; Halldórsdóttir, HR; Han, L; Han, Z; Hävecker, M; Helge, JW; Heo, K; Hernández, JD; Hindsø, M; Holmen Olofsson, G; Hong, CE; Hong, J; Horenstein, AL; Hosenally, M; Hruz, P; Hsu, HL; Hsu, KC; Hu, SF; Hu, Y; Huang, K; Huang, S; Huang, WH; Humaira, A; Hung, CF; Hung, WS; Huo, XK; Huvinen, E; Idorn, M; Ignatyev, K; Im, WT; Ismaël, IS; Jakobsson, JG; Janaszek-Mańkowska, M; Jeong, GT; Ji, L; Ji, X; Jiang, Y; Jo, IH; Jo, SH; Johnson, AC; Johnson, LE; Kadirvelu, K; Kahnt, A; Kaleta, A; Kamiya, T; Kang, DH; Kang, XH; Kashiwagi, T; Katayama, E; Kawachi, N; Keller, M; Kellermann, L; Khan, T; Khan, ZA; Kharshoum, RM; Khim, JS; Kikuchi, M; Kim, BS; Kim, DS; Kim, DW; Kim, JH; Kim, JJ; Kim, JU; Kim, SK; Kim, WS; Kimura, J; Kiss, C; Knop-Gericke, A; Kobayashi, S; Koivusalo, SB; Kolar, E; Kottegoda, N; Kramer, K; Kristiansen, G; Kruger, AA; Kumar, S; Kumar, V; Kumarage, S; Kursungoz, C; Kushner, BH; Kuwahara, F; Kuzawa, C; Kwon, BO; Landsberg, J; Larsen, S; Lauer, P; Le Luduec, JB; Lee, DW; Lee, H; Lee, HY; Lee, JW; Lee, MJ; Lee, SW; Lefrançois, P; Leibovici, L; Leong, KK; Leong, M; Li, B; Li, D; Li, G; Li, J; Li, YZ; Liang, JH; Liang, X; Liens, A; Ligorio, G; Lin, JD; Lindholm, MG; Liou, MJ; List-Kratochvil, EJW; Litvinov, IV; Liu, F; Liu, S; Liu, Y; Liu, Z; Lohar, S; Lopes, MTP; Lorenzo, E; Lu, X; Lukashuk, L; Lukens, WL; Luo, HR; Luo, L; Luttik, MAH; Ma, Y; MacGowan, A; Mahomoodally, MF; Maissen, S; Malavasi, F; Malhotra, M; Mallik, S; Manna, D; Mans, R; Marangoni, D; Marimpietri, D; Marques, F; Marques, WL; Marsaa, K; Martin Silva, N; Martinez, A; Martínez, MS; Massaia, M; Mayrhofer, KJJ; McDade, T; McNeel, DG; Met, Ö; Micalizio, GC; Modak, S; Morandi, F; Moreau, L; Morla, S; Morrell, AP; Morris, S; Mubarak, Z; Muchlisin, ZA; Munoz, M; Nagao, Y; Nakama, T; Nakamura, H; Nakano, T; Nardi, MV; Nasirian, A; Nelson, MD; Netchiporouk, E; Ni, X; Niess, JH; Nijenhuis, JM; Nikolaou, V; O'Connor, BJ; O'Reilly, RJ; Odobel, F; Ohata, C; Ohyama, B; Olivar, LC; Ordoñez, MG; Ostrovnaya, I; Palmar, J; Panda, S; Pandiyarajan, S; Park, B; Park, H; Park, JH; Park, S; Pasquali, L; Patik, JC; Pearce, CI; Peele, ME; Peng, S; Perera, IC; Petty, JT; Pidko, EA; Pinheiro, CB; Pistoia, V; Pita, M; Planchat, A; Plass, F; Pockes, S; Pradhan, N; Premasudha, P; Pronk, JT; Provost, N; Pujol, M; Qi, P; Qiu, J; Qiu, Z; Quan, J; Quaranta, A; Ra, CH; Rameshan, R; Ranglack, DH; Rausch-Fan, X; Rieger, E; Rivas, JR; Roberts, SS; Rocha, WR; Rodrigues, GLS; Rojas, J; Roy, P; Rozhkova, A; Rufo, S; Rupprechter, G; Saeui, CT; Saha, A; Sakai, M; Salazar, J; Salem, HF; Salgarello, T; Samarakoon, SR; Sandau, C; Sandbeck, DJS; Santos, AF; Santos, VG; Sara, Y; Saslow, SA; Sasseville, D; Sato, S; Sauer, JD; Schlögl, R; Schweiger, MJ; Shashkov, I; Shaw, E; Shen, WQ; Shim, J; Shu, J; Singh, C; Sinha Babu, SP; Sinitsyn, A; Sinitsyna, O; Skadborg, SK; Song, Q; Song, W; Stach-Lempinen, B; Stoddart, M; Stoica, M; Street, SR; Sukwong, P; Sun, CP; Sun, J; Sunwoo, IY; Suresh, S; Szécsényi, Á; Takahashi, T; Takeda, S; Tang, D; Tas, ST; Tebé, C; Teixeira, LR; Teixidor, F; Terrier, B; Teschner, D; Tetzlaff, MT; Theisen, E; Thor Straten, P; Tiitinen, A; Timpel, M; Toccoli, T; Torikai, K; Torres, W; Toscani, D; Trad, S; Tsai, HJ; Tseng, CP; Tucker, WJ; Um, W; Vallejo-Torres, L; van den Broek, M; Van den Heuvel, L; van der Woude, LN; van Maris, AJA; Van Schepdael, A; Vank, C; Verucchi, R; Vigo, JM; Viñas, C; Vogt, TJ; Vuong, C; Wai, H; Wang, B; Wang, D; Wang, H; Wang, JJ; Wang, K; Wang, L; Wang, Q; Wang, YR; Watanabe, S; Watters, AK; Weerasekera, MM; Wei, L; Wheeler, DA; Wiegand, I; Wifling, D; Wijesinghe, GK; Winiczenko, R; Wolker, T; Wu, J; Wu, TC; Wu, YY; Xie, P; Xie, YP; Xu, A; Xu, E; Xu, L; Xu, Z; Yamaguchi, M; Yang, A; Yang, G; Yang, J; Yang, TM; Yang, W; Yang, Y; Yarema, KJ; Yesiltepe, M; Yi, KJ; Yigit, N; Yim, UH; Yin, B; Yu, S; Zengin, G; Zhang, B; Zhang, C; Zhang, GR; Zhang, H; Zhang, J; Zhang, L; Zhang, TY; Zhang, X; Zhang, Y; Zhang, YX; Zhao, H; Zhao, JC; Zhao, Z; Zheng, R; Zhou, W; Zorn Morales, N | 1 |
Cheng, CK; Jahim, JM; Lee, CBTL; Siow, LF; Wu, TY; Yong, KJ | 1 |
1 trial(s) available for chlorine and furaldehyde
27 other study(ies) available for chlorine and furaldehyde
Article | Year |
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Interference by carbohydrate and other substances in the estimation of protein with the Folin-Ciocalteu reagent.
Topics: Acetaldehyde; Ascorbic Acid; Carbohydrates; Chlorides; Ferricyanides; Ferrocyanides; Furaldehyde; Glucosamine; Glucose; Iron; Levulinic Acids; Methods; Perchlorates; Potassium; Proteins; Quaternary Ammonium Compounds; Sodium; Spectrophotometry; Sulfites; Thiosulfates; Tin | 1969 |
Efficient catalytic system for the selective production of 5-hydroxymethylfurfural from glucose and fructose.
Topics: Catalysis; Chlorides; Chromium Compounds; Fructose; Furaldehyde; Gasoline; Glucose | 2008 |
Microwave-assisted conversion of lignocellulosic biomass into furans in ionic liquid.
Topics: Bioelectric Energy Sources; Biofuels; Biomass; Biotechnology; Catalysis; Chlorides; Chromium Compounds; Furaldehyde; Furans; Ionic Liquids; Lignin; Microwaves; Models, Chemical; Time Factors; Water; Zea mays | 2010 |
Fast transformation of glucose and di-/polysaccharides into 5-hydroxymethylfurfural by microwave heating in an ionic liquid/catalyst system.
Topics: Catalysis; Cellulose; Chlorides; Chromium Compounds; Disaccharides; Furaldehyde; Glucose; Ionic Liquids; Microwaves; Polysaccharides; Recycling | 2010 |
Production of 5-hydroxymethylfurfural from glucose catalyzed by hydroxyapatite supported chromium chloride.
Topics: Biomass; Biotechnology; Catalysis; Chlorides; Chromatography, High Pressure Liquid; Chromium Compounds; Cost-Benefit Analysis; Dehydration; Durapatite; Furaldehyde; Glucose; Microwaves; Oils; Time Factors | 2011 |
Conversion of hexose into 5-hydroxymethylfurfural in imidazolium ionic liquids with and without a catalyst.
Topics: Borates; Catalysis; Chlorides; Chromium Compounds; Fructose; Furaldehyde; Glucose; Imidazoles; Ionic Liquids; Sulfuric Acids | 2011 |
Catalytic conversion of glucose to 5-hydroxymethyl furfural using inexpensive co-catalysts and solvents.
Topics: Catalysis; Chlorides; Chromium Compounds; Furaldehyde; Glucose; Ionic Liquids; Molecular Structure; Solvents | 2011 |
Production of furfural from xylose at atmospheric pressure by dilute sulfuric acid and inorganic salts.
Topics: Atmospheric Pressure; Chlorides; Ferric Compounds; Furaldehyde; Sodium Chloride; Sulfuric Acids; Xylose | 2012 |
Synthesis of furfural from xylose, xylan, and biomass using AlCl3·6H2O in biphasic media via xylose isomerization to xylulose.
Topics: Aluminum Chloride; Aluminum Compounds; Biomass; Chemistry Techniques, Synthetic; Chlorides; Furaldehyde; Isomerism; Lignin; Xylans; Xylose; Xylulose | 2012 |
Conversion of carbohydrates into 5-hydroxymethylfurfural catalyzed by ZnCl2 in water.
Topics: Biomass; Catalysis; Cellulose; Chlorides; Fructose; Furaldehyde; Glucose; Kinetics; Maltose; Solutions; Starch; Water; Zinc Compounds | 2012 |
FeCl3 and acetic acid co-catalyzed hydrolysis of corncob for improving furfural production and lignin removal from residue.
Topics: Acetic Acid; Batch Cell Culture Techniques; Bioreactors; Catalysis; Cellulose; Chlorides; Ferric Compounds; Furaldehyde; Hydrolysis; Lignin; Models, Chemical; Pressure; Temperature; Waste Products; Xylans; Zea mays | 2012 |
Production of hybrid diesel fuel precursors from carbohydrates and petrochemicals using formic acid as a reactive solvent.
Topics: Alkylation; Benzene Derivatives; Carbohydrates; Catalysis; Cellulose; Chlorides; Ferric Compounds; Formates; Furaldehyde; Gasoline; Glucose; Solvents | 2013 |
Conversion of xylan, d-xylose and lignocellulosic biomass into furfural using AlCl3 as catalyst in ionic liquid.
Topics: Aluminum Chloride; Aluminum Compounds; Biomass; Catalysis; Chlorides; Furaldehyde; Ionic Liquids; Lignin; Microwaves; Pinus; Poaceae; Wood; Xylans; Xylose; Zea mays | 2013 |
Microwave-assisted rapid conversion of carbohydrates into 5-hydroxymethylfurfural by ScCl3 in ionic liquids.
Topics: Carbohydrates; Catalysis; Chlorides; Furaldehyde; Imidazoles; Ionic Liquids; Microwaves; Molecular Structure; Scandium | 2013 |
Direct conversion of chitin biomass to 5-hydroxymethylfurfural in concentrated ZnCl2 aqueous solution.
Topics: Biomass; Catalysis; Chitin; Chlorides; Chromatography, High Pressure Liquid; Furaldehyde; Magnetic Resonance Spectroscopy; Mass Spectrometry; Solutions; Water; Zinc Compounds | 2013 |
Co-production of furfural and acetic acid from corncob using ZnCl2 through fast pyrolysis in a fluidized bed reactor.
Topics: Acetic Acid; Biofuels; Bioreactors; Biotechnology; Chlorides; Furaldehyde; Hot Temperature; Oils; Thermogravimetry; Zea mays; Zinc Compounds | 2013 |
Selective production of chemicals from biomass pyrolysis over metal chlorides supported on zeolite.
Topics: Acetic Acid; Biomass; Biotechnology; Cellulose; Chlorides; Distillation; Furaldehyde; Hot Temperature; Metals; Zeolites | 2013 |
Production of furfural from xylose, xylan and corncob in gamma-valerolactone using FeCl3·6H2O as catalyst.
Topics: Catalysis; Cellulose; Chlorides; Ferric Compounds; Furaldehyde; Glucose; Lactones; Temperature; Water; Xylans; Xylose; Zea mays | 2014 |
Efficient conversion of cellulose into biofuel precursor 5-hydroxymethylfurfural in dimethyl sulfoxide-ionic liquid mixtures.
Topics: Aluminum Chloride; Aluminum Compounds; Biofuels; Catalysis; Cellulose; Chlorides; Dimethyl Sulfoxide; Furaldehyde; Imidazoles; Ionic Liquids; Lewis Acids; Temperature | 2014 |
Enhanced conversion of carbohydrates to the platform chemical 5-hydroxymethylfurfural using designer ionic liquids.
Topics: Catalysis; Chlorides; Chromium Compounds; Furaldehyde; Glucose; Imidazoles; Ionic Liquids | 2014 |
In situ NMR spectroscopy: inulin biomass conversion in ZnCl₂ molten salt hydrate medium-SnCl₄ addition controls product distribution.
Topics: Biomass; Catalysis; Chlorides; Furaldehyde; Inulin; Levulinic Acids; Magnetic Resonance Spectroscopy; Salts; Sucrose; Temperature; Tin Compounds; Zinc Compounds | 2015 |
Metabolic responses in Candida tropicalis to complex inhibitors during xylitol bioconversion.
Topics: Acetic Acid; Candida tropicalis; Chlorides; Fermentation; Furaldehyde; Metabolome; Metabolomics; Xylitol; Xylose | 2015 |
Metal-free and Scalable Synthesis of Porous Hyper-cross-linked Polymers: Towards Applications in Liquid-Phase Adsorption.
Topics: Adsorption; Catalysis; Chlorides; Ferric Compounds; Fructose; Furaldehyde; Hydrophobic and Hydrophilic Interactions; Lewis Acids; Mesylates; Polymers; Porosity; Sulfuric Acids; Surface Properties; Water | 2015 |
Base-Free Aqueous-Phase Oxidation of 5-Hydroxymethylfurfural over Ruthenium Catalysts Supported on Covalent Triazine Frameworks.
Topics: Catalysis; Chlorides; Dicarboxylic Acids; Furaldehyde; Furans; Oxidation-Reduction; Polymerization; Ruthenium; Triazines; Water; Zinc Compounds | 2015 |
Valorization of starchy, cellulosic, and sugary food waste into hydroxymethylfurfural by one-pot catalysis.
Topics: Acids; Aluminum Chloride; Aluminum Compounds; Catalysis; Chlorides; Food; Fructose; Furaldehyde; Glucose; Hydrolysis; Metals; Microwaves; Refuse Disposal; Starch; Waste Products | 2017 |
Lignocellulose fractionation into furfural and glucose by AlCl
Topics: Aluminum Chloride; Aluminum Compounds; Catalysis; Chlorides; Choline; Furaldehyde; Glucose; Lignin; Methyl n-Butyl Ketone; Oxalic Acid | 2018 |
Investigation into Lewis and Brønsted acid interactions between metal chloride and aqueous choline chloride-oxalic acid for enhanced furfural production from lignocellulosic biomass.
Topics: Acids; Biomass; Chlorides; Choline; Furaldehyde; Lignin; Metals; Oxalic Acid; Solvents; Water | 2022 |