Page last updated: 2024-08-22

tungsten and ruthenium

tungsten has been researched along with ruthenium in 18 studies

Research

Studies (18)

TimeframeStudies, this research(%)All Research%
pre-19906 (33.33)18.7374
1990's0 (0.00)18.2507
2000's3 (16.67)29.6817
2010's8 (44.44)24.3611
2020's1 (5.56)2.80

Authors

AuthorsStudies
Harrison, FL1
Kolb, W1
Chertok, RJ; Lake, S4
el Hafa, H; Huché, M; Jaouen, G; Top, S; Vaissermann, J; Vessiéres, A1
Dickman, MH; Kortz, U; Mal, SS; Nsouli, NH1
Botar, B; Geletii, YV; Hill, CL; Hillesheim, DA; Kögerler, P; Musaev, DG1
Besson, C; Blanchard, S; Courillon, C; Mirebeau, JH; Proust, A; Renaudineau, S; Roland, S; Vezin, H1
Liu, H; Liu, Y; Luo, C1
Berardi, S; Bonchio, M; Campagna, S; Natali, M; Sartorel, A; Scandola, F1
Hwang, SJ; Kim, SK; Lim, TH; Park, HY; Pyo, SG; Sung, YE; Yoo, SJ1
Sun, ZM; Tang, J; Wang, H; Wang, L; Xie, Z; Yang, W; Yi, FY1
Fukushi, D; Gar Alalm, M; Ookawara, S; Sato, A; Tawfik, A1
Claus, P; Fabičovicová, K; Lucas, M1
Ahmed, TS; Grubbs, RH; Montgomery, TP1
Ferreira, PJ; Oliveira, BMC; Santos, RF; Savaris, LCG; Vieira, MF1

Reviews

1 review(s) available for tungsten and ruthenium

ArticleYear
Stereoretentive Olefin Metathesis: An Avenue to Kinetic Selectivity.
    Angewandte Chemie (International ed. in English), 2017, 09-04, Volume: 56, Issue:37

    Topics: Alkenes; Catalysis; Kinetics; Molecular Structure; Molybdenum; Ruthenium; Stereoisomerism; Tungsten

2017

Other Studies

17 other study(ies) available for tungsten and ruthenium

ArticleYear
Availability to aquatic animals of short-lived radionuclides from a plowshare cratering event.
    Health physics, 1973, Volume: 24, Issue:3

    Topics: Animals; Antimony; Astacoidea; Barium; Bivalvia; Brachyura; Cerium Isotopes; Cyprinidae; Fishes; Gold Isotopes; Iodine Isotopes; Lanthanum; Radiation Dosage; Radioactive Fallout; Ruthenium; Time Factors; Tungsten; Water Pollution, Radioactive

1973
Tungsten-181 and other short lived fission products in ground level air in North Germany and North Norway.
    Nature, 1971, Aug-20, Volume: 232, Issue:5312

    Topics: Air Pollution, Radioactive; Cerium; Cesium; Germany, East; Niobium; Norway; Nuclear Fission; Radiometry; Ruthenium; Tungsten; Zirconium

1971
Availability in the peccary pig of radionuclides in nuclear debris from the Plowshare Excavation Buggy.
    Health physics, 1971, Volume: 20, Issue:3

    Topics: Animals; Antimony; Cerium Isotopes; Feces; Gold Isotopes; Iodine Isotopes; Lanthanum; Molybdenum; Nuclear Energy; Nuclear Fission; Radioactive Fallout; Radioisotopes; Ruthenium; Swine; Technetium; Time Factors; Tungsten; Whole-Body Counting

1971
Biological availability of radionuclides produced by the Plowshare Event Schooner. II. Retention and excretion rates in peccaries after a single oral dose of debris.
    Health physics, 1971, Volume: 20, Issue:3

    Topics: Animals; Arsenic; Cobalt Isotopes; Feces; Gold Isotopes; Iodine Isotopes; Manganese; Nuclear Energy; Nuclear Fission; Radioactive Fallout; Radioisotopes; Rhenium; Ruthenium; Swine; Tungsten; Whole-Body Counting; Yttrium Isotopes

1971
Availability in the dog of radionuclides in nuclear debris from the Plowshare Excavation Cabriolet.
    Health physics, 1970, Volume: 19, Issue:3

    Topics: Animals; Antimony; Barium; Body Burden; Cerium Isotopes; Dogs; Explosions; Feces; Female; Gold Isotopes; Intestinal Absorption; Iodine Isotopes; Lanthanum; Molybdenum; Radiation Monitoring; Radioactive Fallout; Radioisotopes; Ruthenium; Tungsten; Whole-Body Counting

1970
Biological availability of radionuclides produced by the Plowshare event Schooner. 3. Accumulation, excretion rates and body distribution in peccaries after daily ingestion of debris.
    Health physics, 1971, Volume: 20, Issue:6

    Topics: Adipose Tissue; Animals; Arsenic; Artiodactyla; Bone and Bones; Cesium Isotopes; Cobalt Isotopes; Feces; Female; Hair; Intestines; Kidney; Liver; Male; Manganese; Muscles; Radiation Effects; Radioactive Waste; Rhenium; Ruthenium; Spleen; Tungsten; Urine; Yttrium Isotopes

1971
Novel estradiol derivatives labeled with Ru, W, and Co complexes. Influence on hormone-receptor affinity of several organometallic groups at the 17 alpha position.
    Chemistry (Weinheim an der Bergstrasse, Germany), 2002, Nov-15, Volume: 8, Issue:22

    Topics: Animals; Binding Sites; Cobalt; Crystallography, X-Ray; Estradiol; Estrogen Receptor alpha; Models, Molecular; Molecular Structure; Protein Conformation; Receptors, Estrogen; Ruthenium; Sheep; Tungsten

2002
Organoruthenium derivative of the cyclic [H7P8W48O184]33- anion: [{K(H2O)}3{Ru(p-cymene)(H2O)}4P8W49O186(H2O)2]27-.
    Dalton transactions (Cambridge, England : 2003), 2007, Jul-07, Issue:25

    Topics: Molecular Conformation; Organometallic Compounds; Ruthenium; Tungsten

2007
An all-inorganic, stable, and highly active tetraruthenium homogeneous catalyst for water oxidation.
    Angewandte Chemie (International ed. in English), 2008, Volume: 47, Issue:21

    Topics: 2,2'-Dipyridyl; Catalysis; Organometallic Compounds; Oxidation-Reduction; Oxygen; Ruthenium; Ruthenium Compounds; Tungsten; Water

2008
Addition of N-heterocyclic carbenes to a ruthenium(VI) nitrido polyoxometalate: a new route to cyclic guanidines.
    Inorganic chemistry, 2011, Mar-21, Volume: 50, Issue:6

    Topics: Guanidines; Heterocyclic Compounds; Methane; Molecular Structure; Organometallic Compounds; Ruthenium; Silver; Tungsten

2011
Tungsten trioxide promoted selective conversion of cellulose into propylene glycol and ethylene glycol on a ruthenium catalyst.
    Angewandte Chemie (International ed. in English), 2012, Mar-26, Volume: 51, Issue:13

    Topics: Catalysis; Cellulose; Ethylene Glycol; Oxides; Propylene Glycol; Ruthenium; Tungsten

2012
Is [Co4(H2O)2(α-PW9O34)2](10-) a genuine molecular catalyst in photochemical water oxidation? Answers from time-resolved hole scavenging experiments.
    Chemical communications (Cambridge, England), 2012, Sep-11, Volume: 48, Issue:70

    Topics: Biomimetic Materials; Catalysis; Cobalt; Electrochemical Techniques; Electrons; Kinetics; Light; Organometallic Compounds; Oxidants, Photochemical; Oxidation-Reduction; Phosphorus; Photolysis; Photosensitizing Agents; Photosynthesis; Pyridines; Ruthenium; Tungsten; Water

2012
Effect of particle size of PtRu nanoparticles embedded in WO3 on electrocatalysis.
    Journal of nanoscience and nanotechnology, 2013, Volume: 13, Issue:5

    Topics: Catalysis; Electrochemistry; Materials Testing; Metal Nanoparticles; Methanol; Oxides; Particle Size; Platinum; Ruthenium; Tungsten

2013
A highly efficient "metalloligand" strategy for the synthesis of ternary Ln-Ru-W hybrids.
    Chemical communications (Cambridge, England), 2013, Sep-18, Volume: 49, Issue:72

    Topics: Coordination Complexes; Lanthanoid Series Elements; Ligands; Models, Molecular; Ruthenium; Tungsten; Tungsten Compounds

2013
Improved WO3 photocatalytic efficiency using ZrO2 and Ru for the degradation of carbofuran and ampicillin.
    Journal of hazardous materials, 2016, Jan-25, Volume: 302

    Topics: Ampicillin; Carbofuran; Nanoparticles; Oxides; Photolysis; Ruthenium; Tungsten; Water Pollutants, Chemical; Zirconium

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
Seedless Cu Electroplating on Ru-W Thin Films for Metallisation of Advanced Interconnects.
    International journal of molecular sciences, 2022, Feb-08, Volume: 23, Issue:3

    Topics: Copper; Electroplating; Microscopy, Atomic Force; Microscopy, Electron, Scanning; Miniaturization; Ruthenium; Spectrometry, X-Ray Emission; Tungsten; X-Ray Diffraction

2022