个人简介
Jacob A. Moulijn is Emeritus Professor of Chemical Engineering at the Delft University of Technology (1990-2007). At present he serves as part-time Professor at the same university and as Distinguished Research Professor at the Cardiff University. In addition to that he is active as a consultant, in particular in the field of biomass conversion. He specialised in Catalysis Engineering. He was Full Professor at the University of Amsterdam (1986-1990), visiting professor at several universities and active in China for the UN.
研究领域
His research interests include: catalysis engineering, catalytic reactors, zeolitic membranes, kinetics, mass transfer, multiphase monolithic reactors, catalyst testing, petroleum conversion (Hydroteating, FCC, Fischer-Tropsch), exhaust gas catalysis (soot from diesel engines, N2O removal, NO abatement, H2S removal, CFC conversion), selective hydrogenation, selective oxidation, photo- and electrocatalysis. He is (co-) author of over 600 technical papers, co-author of two books, editor of seven books, holder of several patents (reactor design, zeolitic membranes, catalyst development).
近期论文
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Akramaz, A.et al. 2016. Gas phase stabiliser-free production of hydrogen peroxide using supported gold-palladium catalysts. Chemical Science (10.1039/C6SC01332E) pdf
Armstrong, R.et al. 2015. Low temperature catalytic partial oxidation of ethane to oxygenates by Fe– and Cu–ZSM-5 in a continuous flow reactor. Journal of Catalysis 330, pp. 84-92. (10.1016/j.jcat.2015.07.001)
Haider, M.et al. 2015. Efficient green methanol synthesis from glycerol. Nature Chemistry 7(12), pp. 1028-1032. (10.1038/nchem.2345) pdf
Gascon, J.et al. 2015. Structuring catalyst and reactor - an inviting avenue to process intensification. Catalysis Science & Technology 5(2), pp. 807-817. (10.1039/C4CY01406E)
Skupien, E.et al. 2014. Inhibition of a gold-based catalyst in benzyl alcohol oxidation: understanding and remediation. Catalysts 4(2), pp. 89-115. (10.3390/catal4020089)
Li, J.et al. 2013. Sorbitol dehydration in a ZnCl2 molten salt hydrate medium: molecular modeling. Catalysis Science & Technology 4(1), pp. 152-163. (10.1039/C3CY00686G)
Alsolami, B.et al. 2013. Catalyst performance testing in multiphase systems: implications of using small catalyst particles in hydrodesulfurization. Industrial & Engineering Chemistry Research 52(26), pp. 9069-9085. (10.1021/ie4010749)
Freakley, S.et al. 2013. Effect of Reaction Conditions on the Direct Synthesis of Hydrogen Peroxide with a AuPd/TiO2 Catalyst in a Flow Reactor. ACS Catalysis 3(4), pp. 487-501. (10.1021/cs400004y)
Hammond, C.et al. 2013. Elucidation and evolution of the active component within Cu/Fe/ZSM-5 for catalytic methane oxidation: from synthesis to catalysis. ACS Catalysis 3(4), pp. 689-699. (10.1021/cs3007999)
Li, J.et al. 2013. Simultaneous hydrolysis and hydrogenation of cellobiose to sorbitol in molten salt hydrate media. Catalysis Science & Technology 3(6), pp. 1565-1572. (10.1039/C3CY20808G)
Li, J.et al. 2013. Sorbitol dehydration into isosorbide in a molten salt hydrate medium. Catalysis Science & Technology 3(6), pp. 1540-1546. (10.1039/C3CY20809E)
Hammond, C.et al. 2013. Aqueous-phase methane oxidation over Fe-MFI zeolites: promotion through isomorphous framework substitution. ACS Catalysis 3(8), pp. 1835-1844., article number: 130702113713003. (10.1021/cs400288b)