格拉漢姆·胡特金斯(Graham J. Hutchings),英國威爾斯加的夫大學物理化學教授。
基本介紹
- 中文名:格拉漢姆·胡特金斯
- 外文名:Graham J. Hutchings
代表論文,2022,2021,2020,2019,2018,2017,2016,2015,2014,2013,2012,2011,2010,2009,2008,2007,2006,2005,2004,2003,2002,2001,2000,1999,1998,1997,1996,1985,
代表論文
2022
- Bowker, M. et al. 2022. Advancing critical chemical processes for a sustainable future: challenges for industry and the Max Planck-Cardiff centre on the fundamentals of heterogeneous catalysis (funcat). Angewandte Chemie International Edition (10.1002/anie.202209016)
- Pattisson, S. et al. 2022. Lowering the operating temperature of gold acetylene hydrochlorination catalysts using oxidized carbon supports. ACS Catalysis 12, pp. 14086–14095. (10.1021/acscatal.2c04242)
- Brehm, J. et al. 2022. Enhancing the Chemo-Enzymatic One-Pot Oxidation of Cyclohexane via in situ H2O2 production over supported Pd-based catalysts. ACS Catalysis 12(19), pp. 11776–11789. (10.1021/acscatal.2c03051)
- Hutchings, G. J., Davies, P. R., Pattisson, S., Davies, T. E., Morgan, D. J. and Dlamini, M. W. 2022. Facile synthesis of a porous 3D g-C3N4 photocatalyst for the degradation of organics in shale gas brines. Catalysis Communications 169, article number: 106480. (10.1016/j.catcom.2022.106480)
- Carter, J. H. et al. 2022. Reversible growth of gold nanoparticles in the low-temperature water-gas shift reaction. ACS Nano (10.1021/acsnano.2c06504)
- Tigwell, M. et al. 2022. Investigating catalytic properties which influence dehydration and oxidative dehydrogenation in aerobic glycerol oxidation over Pt/TiO2. Journal of Physical Chemistry C 126(37), pp. 15651-15661. (10.1021/acs.jpcc.2c03680)
- Lewis, R. J. et al. 2022. Cyclohexanone ammoximation via in situ H2O2 production using TS-1 supported catalysts. Green Chemistry (10.1039/D2GC02689A)
- Lewis, R. J. et al. 2022. N-heterocyclic carbene modified palladium catalysts for the direct synthesis of hydrogen peroxide. Journal of the American Chemical Society 144(34), pp. 15431-15436. (10.1021/jacs.2c04828)
- Smith, L. R., Douthwaite, M., Mugford, K., Dummer, N. F., Willock, D. J., Hutchings, G. J. and Taylor, S. H. 2022. Recent advances on the valorization of glycerol into alcohols. Energies 15(17), article number: e6250. (10.3390/en15176250)
- Evans, C. D., Bartley, J. K., Taylor, S. H., Hutchings, G. J. and Kondrat, S. A. 2022. Perovskite supported catalysts for the selective oxidation of glycerol to tartronic acid. Catalysis Letters (10.1007/s10562-022-04111-2)
- Pudge, G. J. F., Hutchings, G. J., Kondrat, S. A., Morrison, K., Perkins, E. F., Rushby, A. V. and Bartley, J. K. 2022. Iron molybdate catalysts synthesised via dicarboxylate decomposition for the partial oxidation of methanol to formaldehyde. Catalysis Science & Technology 12, pp. 4552-4560. (10.1039/D2CY00699E)
- Taylor, S., Carter, J., Dummer, N., Nasrallah, A., Willock, D. and Hutchings, G. 2022. Selective oxidation of methane to oxygenates using heterogeneous catalysts. In: Li, L. and Hargreaves, J. eds. Heterogeneous Catalysis for Sustainable Energy. Weinheim: Wiley, pp. 183-203.
- Lawes, N. et al. 2022. Methanol synthesis from CO2 and H2 using supported Pd alloy catalysts.. Faraday Discussions (10.1039/D2FD00119E)
- Sun, S. et al. 2022. Selective oxidation of methane to methanol and methyl hydroperoxide over palladium modified MoO3 photocatalyst under ambient conditions. Catalysis Science & Technology 12(11), pp. 3727-3736. (10.1039/D2CY00240J)
- Santos, A., Lewis, R. J., Morgan, D. J., Davies, T. E., Hampton, E., Gaskin, P. and Hutchings, G. J. 2022. The oxidative degradation of phenol via in situ H2O2 synthesis using Pd supported Fe-modified ZSM-5 catalysts. Catalysis Science & Technology 12(9), pp. 2943-2953. (10.1039/D2CY00283C)
- Chen, B. et al. 2022. The reaction pathways of 5-hydroxymethylfurfural conversion in a continuous flow reactor using copper catalysts. Catalysis Science & Technology 12(9), pp. 3016-3027. (10.1039/D1CY02197D)
- Bowker, M. et al. 2022. The critical role of βPdZn alloy in Pd/ZnO catalysts for the hydrogenation of carbon dioxide to methanol. ACS Catalysis 12(9), pp. 5371-5379. (10.1021/acscatal.2c00552)
- Lewis, R. J. et al. 2022. Highly efficient catalytic production of oximes from ketones using in situ–generated H2O2. Science 376(6593), pp. 615-620. (10.1126/science.abl4822)
- Miedziak, P. J., Pattisson, S., Edwards, J. K., Tarbit, B., Taylor, S. H. and Hutchings, G. J. 2022. The over-riding role of autocatalysis in alllylic oxidation. Catalysis Letters 152, pp. 1003-1008. (10.1007/s10562-021-03707-4)
- Douthwaite, M., Zhang, B., Iqbal, S., Miedziak, P. J., Bartley, J. K., Willock, D. J. and Hutchings, G. J. 2022. Transfer hydrogenation of methyl levulinate with methanol to gamma valerolactone over Cu-ZrO2: A sustainable approach to liquid fuels. Catalysis Communications 164, article number: 106430. (10.1016/j.catcom.2022.106430)
- Fortunato, G. V. et al. 2022. Analysing the relationship between the fields of thermo- and electrocatalysis taking hydrogen peroxide as a case study. Nature Communications 13, article number: 1973. (10.1038/s41467-022-29536-6)
- Crawley, J. W. M. et al. 2022. Heterogeneous trimetallic nanoparticles as catalysts. Chemical Reviews 122(6), pp. 6795-6849. (10.1021/acs.chemrev.1c00493)
- Huang, X. et al. 2022. Au-Pd separation enhances bimetallic catalysis of alcohol oxidation. Nature 603, pp. 271-275. (10.1038/s41586-022-04397-7)
- Ye, T., Carter, J. H., Chen, B., Li, X., Ye, Y., Taylor, S. H. and Hutchings, G. J. 2022. Iron-chromium mixed metal oxides catalyse the oxidative dehydrogenation of propane using carbon dioxide. Catalysis Communications 162, article number: 106383. (10.1016/j.catcom.2021.106383)
- Richards, T., Lewis, R. J., Morgan, D. J. and Hutchings, G. J. 2022. The direct synthesis of Hydrogen Peroxide over supported Pd-based catalysts: an investigation into the role of the support and secondary metal modifiers. Catalysis Letters (10.1007/s10562-022-03967-8)
- Barnes, A., Lewis, R. J., Morgan, D. J., Davies, T. E. and Hutchings, G. J. 2022. Enhancing catalytic performance of AuPd catalysts towards the direct synthesis of H2O2 through incorporation of base metals. Catalysis Science & Technology 12, pp. 1986-1995. (10.1039/D1CY01962G)
- Richards, N. et al. 2022. Effect of the preparation method of LaSrCoFeOx perovskites on the activity of N2O decomposition. Catalysis Letters 152, pp. 213-226. (10.1007/s10562-021-03619-3)
- Brehm, J., Lewis, R. J., Morgan, D. J., Davies, T. E. and Hutchings, G. J. 2022. The direct synthesis of hydrogen peroxide over AuPd nanoparticles: an investigation into metal loading. Catalysis Letters 152, pp. 254-262. (10.1007/s10562-021-03632-6)
- Qi, G. et al. 2022. Au-ZSM-5 catalyses the selective oxidation of CH4 to CH3OH and CH3COOH using O2. Nature Catalysis 5, pp. 45–54. (10.1038/s41929-021-00725-8)
2021
- Tariq, A., Ruiz Esquius, J., Davies, T. E., Bowker, M., Taylor, S. H. and Hutchings, G. J. 2021. Combination of Cu/ZnO methanol synthesis catalysts and ZSM-5 zeolites to produce oxygenates from CO2 and H2. Topics in Catalysis 64, pp. 965-973. (10.1007/s11244-021-01447-8)
- Lewis, R. J., Ntainjua, E. N., Morgan, D. J., Davies, T. E., Carley, A. F., Freakley, S. J. and Hutchings, G. J. 2021. Improving the performance of Pd based catalysts for the direct synthesis of hydrogen peroxide via acid incorporation during catalyst synthesis. Catalysis Communications 161, article number: 106358. (10.1016/j.catcom.2021.106358)
- Sun, S. et al. 2021. Lanthanum modified Fe-ZSM-5 zeolites for selective methane oxidation with H2O2. Catalysis Science & Technology 11(24), pp. 8052-8064. (10.1039/D1CY01643A)
- Santos, A., Lewis, R. J., Morgan, D. J., Davies, T. E., Hampton, E., Gaskin, P. and Hutchings, G. J. 2021. The degradation of phenol via in situ H2O2 production over supported Pd-based catalysts. Catalysis Science & Technology 11(24), pp. 7866-7874. (10.1039/D1CY01897C)
- Carter, J. et al. 2021. Direct and oxidative dehydrogenation of propane: From catalyst design to industrial application. Green Chemistry 23(24), pp. 9747-9799. (10.1039/D1GC03700E)
- Najafishirtari, S. et al. 2021. A perspective on heterogeneous catalysts for the selective oxidation of alcohols. Chemistry - A European Journal 27(68), pp. 16809-16833. (10.1002/chem.202102868)
- Agarwal, N. et al. 2021. The direct synthesis of hydrogen peroxide over Au and Pd nanoparticles: A DFT study. Catalysis Today 381, pp. 76-85. (10.1016/j.cattod.2020.09.001)
- Yang, N., Pattisson, S., Douthwaite, M., Zeng, G., Zhang, H., Ma, J. and Hutchings, G. J. 2021. Influence of stabilizers on the performance of Au/TiO2 catalysts for CO oxidation. ACS Catalysis 11(18), pp. 11607-11615. (10.1021/acscatal.1c02820)
- Nowicka, E. et al. 2021. Controlled reduction of aromaticity of alkylated polyaromatic compounds by selective oxidation using H2WO4, H3PO4 and H2O2: A route for upgrading heavy oil fractions. New Journal of Chemistry 45(31), pp. 13885-13892. (10.1039/D1NJ01986D)
- Richards, T. et al. 2021. A residue-free approach to water disinfection using catalytic in situ generation of reactive oxygen species. Nature Catalysis 4, pp. 575-585. (10.1038/s41929-021-00642-w)
- Yang, P. et al. 2021. Coordinately unsaturated O2c–Ti5c–O2c sites promote the reactivity of Pt/TiO2 catalysts in the solvent-free oxidation of octanol. Catalysis Science & Technology 11(14), pp. 4898-4910. (10.1039/D1CY00686J)
- Ruiz Esquius, J., Bahruji, H., Bowker, M. and Hutchings, G. 2021. Identification of C2-C5 products from CO2 hydrogenation over PdZn/TiO2-ZSM-5 hybrid catalysts. Faraday Discussions 230, pp. 52-67. (10.1039/D0FD00135J)
- Wilbers, D. et al. 2021. Controlling product selectivity with nanoparticle composition in tandem chemo-biocatalytic styrene oxidation. Green Chemistry 23(11), pp. 4170-4180. (10.1039/D0GC04320F)
- Freakley, S. J., Dimitratos, N., Willock, D. J., Taylor, S. H., Kiely, C. J. and Hutchings, G. J. 2021. Methane oxidation to methanol in water. Accounts of Chemical Research 54(11), pp. 2614–2623. (10.1021/acs.accounts.1c00129)
- Lai, K. et al. 2021. LanCLs add glutathione to dehydroamino acids generated at phosphorylated sites in the proteome. Cell 184(10) (10.1016/j.cell.2021.04.001)
- Sainna, M. et al. 2021. A combined periodic DFT and QM/MM approach to understand the radical mechanism of the catalytic production of methanol from glycerol. Faraday Discussions 229, pp. 108-130. (10.1039/D0FD00005A)
- Hutchings, G. 2021. Spiers memorial lecture: understanding reaction mechanisms in heterogeneously catalysed reactions. Faraday Discussions 229, pp. 9-34. (10.1039/D1FD00023C)
- Dawson, S. R. et al. 2021. Sulfur promotion in Au/C catalyzed acetylene hydrochlorination. Small 17(16), article number: 2007221. (10.1002/smll.202007221)
- Smith, L. R. et al. 2021. Gas phase clycerol valorization over ceria nanostructures with well-defined morphologies. ACS Catalysis 11, pp. 4893-4907. (10.1021/acscatal.0c05606)
- Chachvalvutikul, A., Luangwanta, T., Pattisson, S., Hutchings, G. J. and Kaowphong, S. 2021. Enhanced photocatalytic degradation of organic pollutants and hydrogen production by a visible light-responsive Bi2WO6/ZnIn2S4 heterojunction. Applied Surface Science 544, article number: 148885. (10.1016/j.apsusc.2020.148885)
- Crombie, C. M. et al. 2021. Enhanced selective oxidation of benzyl alcohol via in situ H2O2 production over supported Pd-based catalysts. ACS Catalysis 11, pp. 2701–2714. (10.1021/acscatal.0c04586)
- Palacios, M., Golunski, S., Hutchings, G. J. and Taylor, S. H. 2021. Characterisation and activity of mixed metal oxide catalysts for the gas-phase selective oxidation of toluene. Catalysis Today 363, pp. 73-84. (10.1016/j.cattod.2019.06.001)
- Crombie, C. M. et al. 2021. The influence of reaction conditions on the oxidation of cyclohexane via the in-situ production of H2O2. Catalysis Letters 151, pp. 164-171. (10.1007/s10562-020-03281-1)
- Underhill, R. et al. 2021. Ambient base-free glycerol oxidation over bimetallic PdFe/SiO2 by in situ generated active oxygen species. Research on Chemical Intermediates 47, pp. 303-324. (10.1007/s11164-020-04333-2)
- Crombie, C. M. et al. 2021. The selective oxidation of cyclohexane via In-situ H2O2 production over supported Pd-based catalysts. Catalysis Letters 151, pp. 2762-2774. (10.1007/s10562-020-03511-6)
2020
- Parker, L. A., Carter, J. H., Dummer, N. F., Richards, N., Morgan, D. J., Golunski, S. E. and Hutchings, G. J. 2020. Ammonia decomposition enhancement by Cs-Promoted Fe/Al2O3 catalysts. Catalysis Letters 150, pp. 3369-3376. (10.1007/s10562-020-03247-3)
- Akram, A. et al. 2020. The direct synthesis of hydrogen peroxide using a combination of a hydrophobic solvent and water. Catalysis Science and Technology 10(24), pp. 8203-8212. (10.1039/D0CY01163K)
- Ruiz Esquius, J., Algara-Siller, G., Spanos, I., Freakley, S. J., Schlögl, R. and Hutchings, G. J. 2020. Preparation of solid solution and layered IrOx–Ni(OH)2 oxygen evolution catalysts: toward optimizing iridium efficiency for OER. ACS Catalysis 10(24), pp. 14640-14648. (10.1021/acscatal.0c03866)
- Bowker, M., Ruiz Esquius, J., Bahruji, H., Taylor, S. H. and Hutchings, G. J. 2020. CO2 hydrogenation to CH3OH over PdZn catalysts, with reduced CH4 production. ChemCatChem 12(23), pp. 6024-6032. (10.1002/cctc.202000974)
- Aldridge, J. K. et al. 2020. Ambient temperature CO oxidation using palladium-platinum bimetallic catalysts supported on tin oxide/alumina. Catalysts 10(11), article number: 1223. (10.3390/catal10111223)
- Shen, H. et al. 2020. Selective and continuous electrosynthesis of hydrogen peroxide on nitrogen-doped carbon supported nickel. Cell Reports Physical Science 1(11), article number: 100255. (10.1016/j.xcrp.2020.100255)
- Pattisson, S., Rogers, O., Whiston, K., Taylor, S. H. and Hutchings, G. J. 2020. Low temperature solvent-free allylic oxidation of cyclohexene using graphitic oxide catalysts. Catalysis Today 357, pp. 3-7. (10.1016/j.cattod.2019.04.053)
- Malta, G. et al. 2020. Can gold be an effective catalyst for the Deacon reaction?. Catalysis Letters 150, pp. 2991-2995. (10.1007/s10562-020-03204-0)
- Jiao, Y. et al. 2020. The effect of T-atom ratio and TPAOH concentration on the pore structure and titanium position in MFI-Type titanosilicate during dissolution-recrystallization process. Microporous and Mesoporous Materials 305, article number: 110397. (10.1016/j.micromeso.2020.110397)
- Freakley, S. J. et al. 2020. Gold–palladium colloids as catalysts for hydrogen peroxide synthesis, degradation and methane oxidation: effect of the PVP stabiliser. Catalysis Science and Technology 10(17), pp. 5935-5944. (10.1039/D0CY00915F)
- Abedin, M. A., Kanitkar, S., Kumar, N., Wang, Z., Ding, K., Hutchings, G. and Spivey, J. J. 2020. Probing the surface acidity of supported aluminum bromide catalysts. Catalysts 10(8), article number: 869. (10.3390/catal10080869)
- Macino, M. et al. 2020. Author correction: Tuning of catalytic sites in Pt/TiO2 catalysts for the chemoselective hydrogenation of 3-nitrostyrene. Nature Catalysis 3(8), pp. 683. (10.1038/s41929-020-00500-1)
- Abis, L., Dimitritatos, N., Meenakshisundaram, S., Freakley, S. J. and Hutchings, G. J. 2020. The effect of polymer addition on base catalysed glycerol oxidation using gold and gold-palladium bimetallic catalysts. Topics in Catalysis 63, pp. 394-402. (10.1007/s11244-019-01212-y)
- Crole, D. A., Underhill, R., Edwards, J. K., Shaw, G., Freakley, S. J., Hutchings, G. J. and Lewis, R. J. 2020. The direct synthesis of hydrogen peroxide from H2 and O2 using Pd-Ni/TiO2 catalysts. Philosophical Transactions A: Mathematical, Physical and Engineering Sciences 378(2176), article number: 20200062. (10.1098/rsta.2020.0062)
- Devlia, J., Smith, L., Douthwaite, M., Taylor, S. H., Willock, D. J., Hutchings, G. J. and Dummer, N. F. 2020. The formation of methanol from glycerol bio-waste over doped ceria based catalysts. Philosophical Transactions A: Mathematical, Physical and Engineering Sciences 378(2176), article number: 20200059. (10.1098/rsta.2020.0059)
- Catlow, C. R., Davidson, M., Hutchings, G. J. and Mulholland, A. 2020. Science to enable the circular economy. Philosophical Transactions of the Royal Society A: Mathematical Physical and Engineering Sciences 378(2176) (10.1098/rsta.2020.0060)
- Gong, X. et al. 2020. Enhanced catalyst selectivity in the direct synthesis of H2O2 through Pt incorporation into TiO2 supported AuPd catalysts. Catalysis Science and Technology 10(14), pp. 4635-4644. (10.1039/D0CY01079K)
- Malta, G. et al. 2020. In situ K-edge X-ray absorption spectroscopy of the ligand environment of single-site Au/C catalysts during acetylene hydrochlorination. Chemical Science 11(27), pp. 7040-7052. (10.1039/D0SC02152K)
- Rogers, O., Pattisson, S., Engel, R. V., Jenkins, R. L., Whiston, K., Taylor, S. H. and Hutchings, G. J. 2020. Adipic acid formation from cyclohexanediol using platinum and vanadium catalysts: elucidating the role of homogeneous vanadium species. Catalysis Science and Technology 10(13), pp. 4210-4218. (10.1039/D0CY00914H)
- Sun, X. et al. 2020. Facile synthesis of precious-metal single-site catalysts using organic solvents. Nature Chemistry 12, pp. 560-567. (10.1038/s41557-020-0446-z)
- Cai, R., Malta, G., Haigh, S. J., Hutchings, G. J., Freakley, S. J. and Palmer, R. E. 2020. Gas-phase deposition of gold nanoclusters to produce heterogeneous glycerol oxidation catalysts. ACS Applied Nano Materials 3(6), pp. 4997-5001. (10.1021/acsanm.0c01140)
- Ju, Q. et al. 2020. Ruthenium triazine composite: a good match for increasing hydrogen evolution activity through contact electrification. Advanced Energy Materials 10(21), article number: 2000067. (10.1002/aenm.202000067)
- Richards, N. et al. 2020. Structure-sensitivity of alumina supported palladium catalysts for N2O decomposition. Applied Catalysis B: Environmental 264, article number: 118501. (10.1016/j.apcatb.2019.118501)
- Richards, N. et al. 2020. Lowering the operating temperature of perovskite catalysts for N2O decomposition through control of preparation methods. ACS Catalysis 10(10), pp. 5430-5442. (10.1021/acscatal.0c00698)
- Ledendecker, M., Pizzutilo, E., Malta, G., Fortunato, G. V., Mayrhofer, K. J. J., Hutchings, G. J. and Freakley, S. J. 2020. Isolated Pd sites as selective catalysts for electrochemical and direct hydrogen peroxide synthesis. ACS Catalysis 10(10), pp. 5928-5938. (10.1021/acscatal.0c01305)
- Pudkon, W. et al. 2020. Enhanced visible-light-driven photocatalytic H2 production and Cr(vi) reduction of a ZnIn2S4/MoS2 heterojunction synthesized by the biomolecule-assisted microwave heating method. Catalysis Science and Technology 10(9), pp. 2838-2854. (10.1039/D0CY00234H)
- Meenakshisundaram, S. et al. 2020. Role of the support in gold-containing nanoparticles as heterogeneous catalysts. Chemical Reviews 120(8), pp. 3890-3938. (10.1021/acs.chemrev.9b00662)
- Caswell, T., Dlamini, M. W., Miedziak, P. J., Pattisson, S., Davies, P. R., Taylor, S. H. and Hutchings, G. J. 2020. Enhancement in the rate of nitrate degradation on Au- and Ag-decorated TiO2 photocatalysts. Catalysis Science and Technology 10(7), pp. 2083-2091. (10.1039/C9CY02473E)
- Evans, C. D. et al. 2020. Enhancing the understanding of the glycerol to lactic acid reaction mechanism over AuPt/TiO2 under alkaline conditions. Journal of Chemical Physics 152(13), article number: 134705. (10.1063/1.5128595)
- Cattaneo, S., Bonincontro, D., Bere, T., Kiely, C. J., Hutchings, G. J., Dimitratos, N. and Albonetti, S. 2020. Continuous flow synthesis of bimetallic AuPd catalysts for the selective oxidation of 5-hydroxymethylfurfural to 2,5-furandicarboxylic acid. ChemNanoMat 6(3), pp. 420-426. (10.1002/cnma.201900704)
- Rucinska, E., Pattisson, S., Miedziak, P. J., Brett, G. L., Morgan, D. J., Sankar, M. and Hutchings, G. J. 2020. Cinnamyl alcohol oxidation using supported bimetallic Au-Pd nanoparticles: An optimization of metal ratio and investigation of the deactivation mechanism under autoxidation conditions. Topics in Catalysis 63, pp. 99-112. (10.1007/s11244-020-01231-0)
- Wang, S., Lewis, R. J., Doronkin, D. E., Morgan, D. J., Grunwaldt, J., Hutchings, G. J. and Behrens, S. 2020. The direct synthesis of hydrogen peroxide from H2 and O2 using Pd–Ga and Pd–In catalysts. Catalysis Science and Technology 10, pp. 1925-1932. (10.1039/C9CY02210D)
- Zhang, B. et al. 2020. Seed- and solvent-free synthesis of ZSM-5 with tuneable Si/Al ratios for biomass hydrogenation. Green Chemistry 22(5), pp. 1630-1638. (10.1039/C9GC03622A)
- Liu, S. et al. 2020. Probing composition distributions in nanoalloy catalysts with correlative electron microscopy. Journal of Materials Chemistry A 8, pp. 15725-15733. (10.1039/D0TA00334D)
- McVicker, R. et al. 2020. Low temperature selective oxidation of methane using gold-palladium colloids. Catalysis Today 342, pp. 32-38. (10.1016/j.cattod.2018.12.017)
- Abis, L., Dimitratos, N., Sankar, M., Freakley, S. J. and Hutchings, G. J. 2020. Plasmonic oxidation of glycerol using Au/TiO2 catalysts prepared by sol-immobilisation. Catalysis Letters 150(1), pp. 49-55. (10.1007/s10562-019-02952-y)
- Thaore, V. B., Armstrong, R. D., Hutchings, G. J., Knight, D. W., Chadwick, D. and Shah, N. 2020. Sustainable production of glucaric acid from corn stover via glucose oxidation: an assessment of homogeneous and heterogeneous catalytic oxidation production routes. Chemical Engineering Research and Design 153, pp. 337-349. (10.1016/j.cherd.2019.10.042)
- Ruiz Esquius, J., Morgan, D. J., Spanos, I., Hewes, D. G., Freakley, S. J. and Hutchings, G. J. 2020. Effect of base on the facile hydrothermal preparation of highly active IrOx oxygen evolution catalysts. ACS Applied Energy Materials 3(1), pp. 800-809. (10.1021/acsaem.9b01642)
- Hardacre, C. et al. 2020. Synchrotron radiation and catalytic science. Synchrotron Radiation News 33(1), pp. 10-14. (10.1080/08940886.2020.1701368)
- Jarvis, J. et al. 2020. Inhibiting the dealkylation of basic arenes during n-alkane direct aromatization reactions and understanding the C6 ring closure mechanism. ACS Catalysis 10, pp. 8428-8443. (10.1021/acscatal.0c02361)
2019
- Waldron, C. et al. 2019. Three step synthesis of benzylacetone and 4-(4-methoxyphenyl)butan-2-one in flow using micropacked bed reactors. Chemical Engineering Journal 377, article number: 119976. (10.1016/j.cej.2018.09.137)
- Venezia, B., Douthwaite, M., Wu, G., Sankar, M., Ellis, P., Hutchings, G. J. and Gavriilidis, A. 2019. Slurry loop tubular membrane reactor for the catalysed aerobic oxidation of benzyl alcohol. Chemical Engineering Journal 378, article number: 122250. (10.1016/j.cej.2019.122250)
- Dai, X. et al. 2019. Efficient elimination of chlorinated organics on a phosphoric acid modified CeO2 catalyst: a hydrolytic destruction route. Environmental Science and Technology 53(21), pp. 12697-12705. (10.1021/acs.est.9b05088)
- Lewis, R. J., Bara Estaun, A., Agarwal, N., Freakley, S. J., Morgan, D. J. and Hutchings, G. J. 2019. The direct synthesis of H2O2 and selective oxidation of methane to methanol using HZSM-5 supported AuPd catalysts. Catalysis Letters 149(11), pp. 3066-3075. (10.1007/s10562-019-02876-7)
- Macino, M. et al. 2019. Tuning of catalytic sites in Pt/TiO2 catalysts for chemoselective hydrogenation of 3-nitrostyrene. Nature Catalysis 2, pp. 873-881. (10.1038/s41929-019-0334-3)
- Abis, L., Dimitratos, N., Meenakshisundaram, S., Freakley, S. J. and Hutchings, G. J. 2019. Plasmonic oxidation of glycerol using AuPd/TiO2 catalysts. Catalysis Science and Technology 9(20), pp. 5686-5691. (10.1039/C9CY01409H)
- Pudkon, W. et al. 2019. Microwave synthesis of ZnIn2S4/WS2 composites for photocatalytic hydrogen production and hexavalent chromium reduction. Catalysis Science and Technology 9(20), pp. 5698-5711. (10.1039/C9CY01553A)
- Freakley, S. J. et al. 2019. A chemo-enzymatic oxidation cascade to activate C-H bonds with in situ generated H2O2. Nature Communications 10(1), article number: 4178. (10.1038/s41467-019-12120-w)
- Orlowski, I. et al. 2019. The hydrogenation of levulinic acid to γ-valerolactone over Cu-ZrO2 catalysts prepared by a pH-gradient methodology. Journal of Energy Chemistry 36, pp. 15-24. (10.1016/j.jechem.2019.01.015)
- Shen, Y. et al. 2019. Promotion mechanisms of Au supported on TiO2 in thermal- and photocatalytic glycerol conversion. Journal of Physical Chemistry C 123(32), pp. 19734-19741. (10.1021/acs.jpcc.9b05475)
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2014
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2013
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2012
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2011
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2010
- Lin, Z., Weng, W., Kiely, C. J., Dummer, N., Bartley, J. K. and Hutchings, G. J. 2010. The synthesis of highly crystalline vanadium phosphate catalysts using a diblock copolymer as a structure directing agent. Catalysis Today 157(1-4), pp. 211-216. (10.1016/j.cattod.2010.03.013)
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- Gevaert, T., Owsianik, G., Hutchings, G. J., Everaerts, W., Nilius, B. and De Ridder, D. 2010. Maturation of stretch-induced contractile activity and its muscarinic regulation in isolated whole bladder strips from rat. Neurourology and Urodynamics 29(5), pp. 789-796. (10.1002/nau.20553)
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2009
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- Lu, T. J., Blackburn, S., Dickinson, C., Rosseinsky, M. J., Hutchings, G. J., Axon, S. and Leeke, G. A. 2009. Production of titania nanoparticles by a green process route. Powder Technology 188(3), pp. 264-271. (10.1016/j.powtec.2008.05.006)
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- Taufiq-Yap, Y. H., Goh, C. K., Hutchings, G. J., Dummer, N. and Bartley, J. K. 2009. Dependence of n-Butane Activation on Active Site of Vanadium Phosphate Catalysts. Catalysis Letters 130(3-4), pp. 327-334. (10.1007/s10562-009-0003-2)
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2008
- Hutchings, G. J., Brust, M. and Schmidbaur, H. 2008. Instant insight: The wonder of gold. Highlights in Chemical Technology 2008(9)
- Conte, M., Carley, A. F., Attard, G. A., Herzing, A. A., Kiely, C. J. and Hutchings, G. J. 2008. Hydrochlorination of acetylene using supported bimetallic Au-based catalysts. Journal of Catalysis 257(1), pp. 190-198. (10.1016/j.jcat.2008.04.024)
- Hutchings, G. J. 2008. CATL 16-Green chemistry using gold catalysis [Abstract]. Abstracts of Papers of the American Chemical Society 235, pp. 16.
- Hutchings, G. J. 2008. FUEL 89-Green catalysis with alternative feedstocks. Abstracts of Papers of the American Chemical Society 235, pp. 89-FUEL.
- Hutchings, G. J. 2008. I&EC 1-Green catalysis with alternative feedstocks. Abstracts of Papers of the American Chemical Society 235, pp. 1-IEC.
- Hutchings, G. J. 2008. PETR 38-Methanol conversion using composite catalysts. Abstracts of Papers of the American Chemical Society 235, pp. 38-PETR.
- Huang, H., Young, N., Williams, B. P., Taylor, S. H. and Hutchings, G. J. 2008. Purification of chemical feedstocks by the removal of aerial carbonyl sulfide by hydrolysis using rare earth promoted alumina catalysts. Green Chemistry 10(5), pp. 571-577. (10.1039/b717031a)
- Conte, M., Carley, A. F. and Hutchings, G. J. 2008. Reactivation of a carbon-supported gold catalyst for the hydrochlorination of acetylene. Catalysis Letters 124(3-4), pp. 165-167. (10.1007/s10562-008-9583-5)
- Edwards, J. K., Carley, A. F., Herzing, A. A., Kiely, C. J. and Hutchings, G. J. 2008. Direct synthesis of hydrogen peroxide from H-2 and O-2 using supported Au-Pd catalysts. Faraday Discussions 138, pp. 225-239. (10.1039/b705915a)
- Edwards, J. K. and Hutchings, G. J. 2008. Palladium and Gold-Palladium Catalysts for the Direct Synthesis of Hydrogen Peroxide. Angewandte Chemie - International Edition 47(48), pp. 9192-9198. (10.1002/anie.200802818)
- Edwards, J. K., Thomas, A., Carley, A. F., Herzing, A. A., Kiely, C. J. and Hutchings, G. J. 2008. Au-Pd supported nanocrystals as catalysts for the direct synthesis of hydrogen peroxide from H2 and O2. Green Chemistry 10(4), pp. 388-394. (10.1039/b714553p)
- Goh, C. K., Taufiq-Yap, Y. H., Hutchings, G. J., Dummer, N. and Bartley, J. K. 2008. Influence of Bi-Fe additive on properties of vanadium phosphate catalysts for n-butane oxidation to maleic anhydride. Catalysis Today 131(1-4), pp. 408-412. (10.1016/j.cattod.2007.10.059)
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- Herzing, A. A., Carley, A. F., Edwards, J. K., Hutchings, G. J. and Kiely, C. J. 2008. Microstructural development and catalytic performance of Au-Pd nanoparticles on Al2O3 supports: The effect of heat treatment temperature and atmosphere. Chemistry of Materials 20(4), pp. 1492-1501. (10.1021/cm702762d)
- Herzing, A. A., Kiely, C. J., Carley, A. F., Landon, P. and Hutchings, G. J. 2008. Identification of active gold nanoclusters on iron oxide supports for CO oxidation. Science 321(5894), pp. 1331-1335. (10.1126/science.1159639)
- Herzing, A. A., Watanabe, M., Edwards, J. K., Conte, M., Tang, Z., Hutchings, G. J. and Kiely, C. J. 2008. Energy dispersive X-ray spectroscopy of bimetallic nanoparticles in an aberration corrected scanning transmission electron microscope. Faraday Discussions 138, pp. 337-351. (10.1039/b706293c)
- Hutchings, G. J. 2008. Nanocrystalline gold and gold-palladium alloy oxidation catalysts: a personal reflection on the nature of the active sites. Dalton Transactions(41), pp. 5523-5536. (10.1039/b804604m)
- Hutchings, G. J. 2008. Supported gold and gold palladium catalysts for selective chemical synthesis. Catalysis Today 138(1-2), pp. 9-14. (10.1016/j.cattod.2008.04.029)
- Hutchings, G. J. 2008. Reactions of alkynes using heterogeneous and homogeneous cationic gold catalysts. Topics in Catalysis 48(1-4), pp. 55-59. (10.1007/s11244-008-9048-5)
- Hutchings, G. J. 2008. Nanocrystalline gold and gold palladium alloy catalysts for chemical synthesis. Chemical Communications(10), pp. 1148-1164. (10.1039/b712305c)
- Hutchings, G. J., Brust, M. and Schmidbaur, H. 2008. Gold - an introductory perspective. Chemical Society Reviews 37(9), pp. 1759-1765. (10.1039/b810747p)
- Jones, C., Taylor, S. H., Burrows, A., Crudace, M. J., Kiely, C. J. and Hutchings, G. J. 2008. Cobalt promoted copper manganese oxide catalysts for ambient temperature carbon monoxide oxidation. Chemical Communications 2008(14), pp. 1707-1709. (10.1039/b800052m)
- Lopez-Sanchez, J. A. et al. 2008. Au-Pd supported nanocrystals prepared by a sol immobilisation technique as catalysts for selective chemical synthesis. Physical Chemistry Chemical Physics 10(14), pp. 1921-1930. (10.1039/b719345a)
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- Xu, C., Bartley, J. K., Enache, D. I., Knight, D. W., Lunn, M., Lok, M. and Hutchings, G. J. 2008. On the synthesis of b-keto-1,3-dithianes from conjugated ynones catalyzed by magnesium oxide. Tetrahedron Letters 49(15), pp. 2454-2456. (10.1016/j.tetlet.2008.02.030)
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2007
- Conte, M., Davies, T., Carley, A. F., Herzing, A. A., Kiely, C. J. and Hutchings, G. J. 2007. Selective formation of chloroethane by the hydrochlorination of ethene using zinc catalysts. Journal of Catalysis 252(1), pp. 23-29. (10.1016/j.jcat.2007.09.002)
- Enache, D. I. et al. 2007. Multiphase hydrogenation of resorcinol in structured and heat exchange reactor systems. Influence of the catalyst and the reactor configuration. Catalysis Today 128(1-2 SP), pp. 26-35. (10.1016/j.cattod.2007.08.012)
- Enache, D. I., Dumas, D., Ellwood, S., Hutchings, G. J., Taylor, S. H., Hawker, S. and Stitt, E. H. 2007. Intensification of the solvent-free catalytic hydroformylation of cyclododecatriene: Comparison of a stirred batch reactor and a heat-exchange reactor. Catalysis Today 128(1-2 SP), pp. 18-25. (10.1016/j.cattod.2007.08.011)
- Conte, M. et al. 2007. Hydrochlorination of acetylene using a supported gold catalyst: A study of the reaction mechanism. Journal of Catalysis 250(2), pp. 231-239. (10.1016/j.jcat.2007.06.018)
- Al-Sayari, S., Carley, A. F., Taylor, S. H. and Hutchings, G. J. 2007. Au/ZnO and Au/Fe2O3 catalysts for CO oxidation at ambient temperature: Comments on the effect of synthesis conditions on the preparation of high activity catalysts prepared by coprecipitation. Topics in Catalysis 44(1-2), pp. 123-128. (10.1007/s11244-007-0285-9)
- Enache, D. I., Barker, D., Edwards, J. K., Taylor, S. H., Knight, D. W., Carley, A. F. and Hutchings, G. J. 2007. Solvent-free oxidation of benzyl alcohol using titania-supported gold-palladium catalysts: Effect of Au-Pd ratio on catalytic performance. Catalysis Today 122(3-4), pp. 407-411. (10.1016/j.cattod.2007.01.003)
- Tang, Z. et al. 2007. Nanocrystalline cerium oxide produced by supercritical antisolvent precipitation as a support for high-activity gold catalysts. Journal of Catalysis 249(2), pp. 208-219. (10.1016/j.jcat.2007.04.016)
- Herzing, A. A. et al. 2007. Characterization of Au-based catalysts using novel cerium oxide supports. Microscopy and Microanalysis 13, pp. 102-103. (10.1017/S143192760707660X)
- Dimitratos, N., Lopez-Sanchez, J. A., Morgan, D. J., Carley, A. F., Prati, L. and Hutchings, G. J. 2007. Solvent free liquid phase oxidation of benzyl alcohol using Au supported catalysts prepared using a sol immobilization technique. Catalysis Today 122(3-4), pp. 317-324. (10.1016/j.cattod.2007.01.002)
- Hutchings, G. J. and Taylor, S. H. 2007. Copper manganese based mixed oxides for CO oxidation at ambient temperature. Presented at: 234th ACS National Meeting, Boston, MA, USA, 19-23 August 2007.
- Zhao, Y. et al. 2007. Study of carbon monoxide hydrogenation over supported Au catalysts. Studies in Surface Science and Catalysis 163, pp. 141-151. (10.1016/S0167-2991(07)80477-0)
- Jalama, K. et al. 2007. Effect of the addition of Au on Co/TiO2 catalyst for the Fischer-Tropsch reaction. Topics in Catalysis 44(1-2), pp. 129-136. (10.1007/s11244-007-0286-8)
2006
- Conte, M. et al. 2006. Chemically Induced Fast Solid-State Transitions of ω-VOPO4 in Vanadium Phosphate Catalysts. Science 313(5791), pp. 1270-1273. (10.1126/science.1130493)
- Huang, H., Young, N., Williams, B. P., Taylor, S. H. and Hutchings, G. J. 2006. High temperature COS hydrolysis catalysed by γ-Al2O 3. Catalysis Letters 110(3-4), pp. 243-246. (10.1007/s10562-006-0115-x)
- Solsona, B. E., Garcia, T., Jones, C., Taylor, S. H., Carley, A. F. and Hutchings, G. J. 2006. Supported gold catalysts for the total oxidation of alkanes and carbon monoxide. Applied Catalysis A General 312, pp. 67-76. (10.1016/j.apcata.2006.06.016)
- Coquet, R., Hutchings, G. J., Taylor, S. H. and Willock, D. J. 2006. Calculations on the adsorption of Au to MgO surfaces using SIESTA. Journal of Materials Chemistry 16(20), pp. 1978-1988. (10.1039/b601213b)
- Enache, D. I. et al. 2006. Solvent-Free Oxidation of Primary Alcohols to Aldehydes Using Au-Pd/TiO2 Catalysts. Science 311(5759), pp. 362-365. (10.1126/science.1120560)
- Tang, Z., Bartley, J. K., Taylor, S. H. and Hutchings, G. J. 2006. Preparation of TiO2 using supercritical CO2 antisolvent precipitation (SAS): A support for high activity gold catalysts. Studies in Surface Science and Catalysis 162, pp. 219-226. (10.1016/S0167-2991(06)80910-9)
- Song, N., Xuan, Z., Bartley, J. K., Taylor, S. H., Chadwick, D. and Hutchings, G. J. 2006. Oxidation of butane to maleic anhydride using vanadium phosphate catalysts: Comparison of operation in aerobic and anaerobic conditions using a gas-gas periodic flow reactor. Catalysis Letters 106(3-4), pp. 127-131. (10.1007/s10562-005-9619-z)
2005
- Song, N., Rhodes, C., Bartley, J. K., Taylor, S. H., Chadwick, D. and Hutchings, G. J. 2005. Oxidation of isobutene to methacrolein using bismuth molybdate catalysts: Comparison of operation in periodic and continuous feed mode. Journal of Catalysis 236(2), pp. 282-291. (10.1016/j.jcat.2005.10.008)
- Hughes, M. D. et al. 2005. Tunable gold catalysts for selective hydrocarbon oxidation under mild conditions. Nature 437(7062), pp. 1132-1135. (10.1038/nature04190)
- Edwards, J. K., Solsona, B. E., Landon, P., Carley, A. F., Herzing, A., Kiely, C. J. and Hutchings, G. J. 2005. Direct synthesis of hydrogen peroxide from H2 and O2 using TiO2-supported Au-Pd catalysts. Journal of Catalysis 236(1), pp. 69-79. (10.1016/j.jcat.2005.09.015)
- Huang, H., Young, N., Williams, B. P., Taylor, S. H. and Hutchings, G. J. 2005. COS hydrolysis using zinc-promoted alumina catalysts. Catalysis Letters 104(1-2), pp. 17-21. (10.1007/s10562-005-7430-5)
- Edwards, J. K. et al. 2005. Direct synthesis of hydrogen peroxide from H2 and O2 using Au–Pd/Fe2O3catalysts. Journal of Materials Chemistry 15(43), pp. 4595-4600. (10.1039/b509542e)
- Enache, D. I., Hutchings, G. J., Taylor, S. H. and Stitt, E. H. 2005. The hydrogenation of isophorone to trimethyl cyclohexanone using the downflow single capillary reactor. Catalysis Today 105(3-4), pp. 569-573. (10.1016/j.cattod.2005.06.013)
- Jeffery, E. L., Mann, R. K., Hutchings, G. J., Taylor, S. H. and Willock, D. J. 2005. A density functional theory study of the adsorption of acetone to the (111) surface of Pt: Implications for hydrogenation catalysis. Catalysis Today 105(1), pp. 85-92. (10.1016/j.cattod.2005.04.013)
- Zhao, Y. et al. 2005. Study of carbon monoxide hydrogenation over Au supported on zinc oxide catalysts. American Chemical Society, Division of Petroleum Chemistry, Preprints 50(2), pp. 206-207.
- Enache, D. I., Hutchings, G. J., Taylor, S. H., Natividad, R., Raymahasy, S., Winterbottom, J. M. and Stitt, E. H. 2005. Experimental evaluation of a three-phase downflow capillary reactor. Industrial and Engineering Chemistry Research 44(16), pp. 6295-6303. (10.1021/ie049140y)
2004
- Solsona, B. E., Hutchings, G. J., Garcia, T. and Taylor, S. H. 2004. Improvement of the catalytic performance of CuMnOx catalysts for CO oxidation by the addition of Au. New Journal of Chemistry 28(6), pp. 708-711. (10.1039/b315391f)
- Zhang, B., Taylor, S. H. and Hutchings, G. J. 2004. Catalytic synthesis of methanethiol from CO/H2/H2S mixtures using α-Al2O3. New Journal of Chemistry 28(4), pp. 471-476. (10.1039/b312340p)
- Caplan, N. A., Hancock, F. E., Bulman Page, P. C. and Hutchings, G. J. 2004. Heterogeneous Enantioselective Catalysed Carbonyl- and Imino-ene Reactions using Copper bis(oxazoline) Zeolite Y. Angewandte Chemie International Edition 43(13), pp. 1685-1688. (10.1002/anie.200352534)
- Li, X. et al. 2004. Enantioselective hydrogenation using cinchona-modified Pt/γ-Al 2O3 catalysts: Comparison of the reaction of ethyl pyruvate and buta-2,3-dione. Catalysis Letters 96(3-4), pp. 147-151. (10.1023/B:CATL.0000030112.70608.a0)
2003
- Zhang, B., Taylor, S. H. and Hutchings, G. J. 2003. Synthesis of methyl mercaptan and thiophene from CO/H2/H 2S using α-Al2O3. Catalysis Letters 91(3-4), pp. 181-183. (10.1023/B:CATL.0000007152.91400.95)
- Mirzaei, A. A., Shaterian, H. R., Habibi, M., Hutchings, G. J. and Taylor, S. H. 2003. Characterisation of copper-manganese oxide catalysts: Effect of precipitate ageing upon the structure and morphology of precursors and catalysts. Applied Catalysis A: General 253(2), pp. 499-508. (10.1016/S0926-860X(03)00563-5)
- Taylor, S. H., Hutchings, G. J. and Mirzaei, A. A. 2003. The preparation and activity of copper zinc oxide catalysts for ambient temperature carbon monoxide oxidation. Catalysis Today 84(3-4), pp. 113-119. (10.1016/S0920-5861(03)00264-5)
- Taylor, S. H., Hutchings, G. J., Palacios-Alcolado, M. and Lee., D. F. 2003. The partial oxidation of propane to formaldehyde using uranium mixed oxide catalysts. Catalysis Today 81(2), pp. 171-178. (10.1016/S0920-5861(03)00110-X)
- Mirzaei, A. A., Shaterian, H. R., Taylor, S. H. and Hutchings, G. J. 2003. Co-precipitated copper zinc oxide catalysts for ambient temperature carbon monoxide oxidation: Effect of precipitate aging atmosphere on catalyst activity. Catalysis Letters 87(3-4), pp. 103-108. (10.1023/A:1023416819195)
- Mirzaei, A. A., Shaterian, H. R., Joyner, R. W., Stockenhuber, M., Taylor, S. H. and Hutchings, G. J. 2003. Ambient temperature carbon monoxide oxidation using copper manganese oxide catalysts: Effect of residual Na+ acting as catalyst poison. Catalysis Communications 4(1), pp. 17-20. (10.1016/S1566-7367(02)00231-5)
- Hammond, C. R., Hutchings, G. J., Willock, D. J. and Taylor, S. H. 2003. A study of methane activation by modified gallium- and zinc-based catalysts. Research on Chemical Intermediates 29(7-9), pp. 911-920. (10.1163/156856703322601906)
2002
- Hargreaves, J. S. J., Hutchings, G. J., Joyner, R. W. and Taylor, S. H. 2002. A study of the methane-deuterium exchange reaction over a range of metal oxides. Applied Catalysis A: General 227(1-2), pp. 191-200. (10.1016/S0926-860X(01)00935-8)
- Whittle, D. M., Mirzaei, A. A., Hargreaves, J. S. J., Joyner, R. M., Kiely, C. J., Taylor, S. H. and Hutchings, G. J. 2002. Co-precipitated copper zinc oxide catalysts for ambient temperature carbon monoxide oxidation: Effect of precipitate ageing on catalyst activity. Physical Chemistry Chemical Physics 4(23), pp. 5915-5920. (10.1039/b207691h)
- Harris, R. H., Boyd, V. J., Hutchings, G. J. and Taylor, S. H. 2002. Water as a promoter of the complete oxidation of volatile organic compounds over uranium oxide catalysts. Catalysis Letters 78(1-4), pp. 369-372. (10.1023/A:1014916920128)
2001
- Cooper, C. A., Hammond, C. R., Hutchings, G. J., Taylor, S. H., Willock, D. J. and Tabata, K. 2001. A combined experimental and theoretical approach to the study of methane activation over oxide catalysts. Catalysis Today 71(1-2), pp. 3-10. (10.1016/S0920-5861(01)00446-1)
- Taylor, S. H., Harris, R. H., Hutchings, G. J. and Boyd, V. J. 2001. Water as a promoter of VOC destruction over uranium oxide catalysts. Abstracts of papers of the American Chemical Society 222, pp. U378-U379.
- Cooper, C. A., Hammond, C. R., Hutchings, G. J., Taylor, S. H., Willock, D. J. and Tabata, K. 2001. The role of gallium oxide in methane partial oxidation catalysts: an experimental and theoretical study. Studies in Surface Science and Catalysis 136, pp. 319-324.
- Traa, Y., Murphy, D. M., Farley, R. D. and Hutchings, G. J. 2001. An EPR study on the enantioselective aziridination properties of a CuNaY zeolite. Physical Chemistry Chemical Physics 3(6), pp. 1073-1080. (10.1039/B010083H)
2000
- Piaggio, P. et al. 2000. Enantioselective epoxidation of (Z)-stilbene using a chiral Mn(III)-salen complex: effect of immobilisation on MCM-41 on product selectivity. Journal of the Chemical Society - Perkins Transactions 2 2000(10), pp. 2008-2015. (10.1039/B005752P)
- Taylor, S. H., Heneghan, C. S., Hutchings, G. J. and Hudson, I. D. 2000. Activity and mechanism of uranium oxide catalysts for the oxidative destruction of volatile organic compounds. Catalysis Today 59(3), pp. 249-259. (10.1016/S0920-5861(00)00291-1)
- Taylor, S. H., Hutchings, G. J., Mirzaei, A. A., Kiely, C. J. and Whittle, D. 2000. Structure and activity relationships for copper manganese and copper zinc oxide catalysts for ambient temperature carbon monoxide oxidation [Abstract]. Abstracts of papers of the American Chemical Society 219, pp. U534-U534.
1999
- Heneghan, C. S., Hutchings, G. J., O'Leary, S. R., Taylor, S. H., Boyd, V. J. and Hudson, I. D. 1999. A temporal analysis of products study of the mechanism of VOC catalytic oxidation using uranium oxide catalysts. Catalysis Today 54(1), pp. 3-12. (10.1016/S0920-5861(99)00162-5)
- Taylor, S. H., Hutchings, G. J. and Mirzaei, A. A. 1999. Copper zinc oxide catalysts for ambient temperature carbon monoxide oxidation. Chemical Communications(15), pp. 1373-1374. (10.1039/A903426I)
- Hutchings, G. J. and Taylor, S. H. 1999. Designing oxidation catalysts. Catalysis Today 49(1-3), pp. 105-113.
- Hutchings, G. J., Taylor, S. H. and Hudson, I. D. 1999. Designing heterogeneous oxidation catalysts. Studies in Surface Science and Catalysis 121, pp. 85-92. (10.1016/S0167-2991(99)80049-4)
1998
- Taylor, S. H., Hargreaves, J. S. J., Hutchings, G. J., Joyner, R. W. and Lembacher, C. W. 1998. The partial oxidation of methane to methanol: an approach to catalyst design. Catalysis Today 42(3), pp. 217-224. (10.1016/S0920-5861(98)00095-9)
- Hutchings, G. J., Mirzaei, A. A., Joyner, R. W., Siddiqui, M. R. H. and Taylor, S. H. 1998. Effect of preparation conditions on the catalytic performance of copper manganese oxide catalysts for CO oxidation. Applied Catalysis A: General 166(1), pp. 143-152. (10.1016/S0926-860X(97)00248-2)
1997
- Hudson, I. D., Henneghan, C. S., Hutchings, G. J. and Taylor, S. H. 1997. New class of uranium oxide catalysts for the oxidative destruction of volatile organic compounds in the vapour phase. Presented at: 90th Annual Meeting Air Waste Management Association, Toronto, Canada, 8-13 June 1997Proceedings of the 1997 Air & Waste Management Association's 90th Annual Meeting & Exhibition. Toronto, Canada: Air & Waste Management Association
- Hutchings, G. J., Hargreaves, J. S. J., Joyner, R. W. and Taylor, S. H. 1997. A novel approach to the scientific design of oxide catalysts for the partial oxidation of methane to methanol. Studies in Surface Science and Catalysis 107, pp. 41-46. (10.1016/S0167-2991(97)80314-X)
- Hutchings, G. J., Heneghan, C. S., Taylor, S. H. and Hudson, I. D. 1997. The catalytic combustion of volatile chloro-organic compounds using uranium oxide catalysts. Preprints - American Chemical Society, Division of Petroleum Chemistry 42(1), pp. 142-145.
1996
- Hutchings, G. J., Heneghan, C. S., Hudson, I. D. and Taylor, S. H. 1996. Uranium-oxide-based catalysts for the destruction of volatile chloro-organic compounds. Nature 384(6607), pp. 341-343. (10.1038/384341a0)
1985
- Hutchings, G. J. 1985. Vapor phase hydrochlorination of acetylene: correlation of catalytic activity of supported metal chloride catalysts. Journal of Catalysis 96(1), pp. 292-295. (10.1016/0021-9517(85)90383-5)