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Kejun Wu
Kejun Wu
School of Chemical and Process Engineering, University of leeds
Verified email at leeds.ac.uk
Title
Cited by
Cited by
Year
Strategies for solids handling in microreactors
K WU, S KUHN
Chimica Oggi-Chemistry Today 32 (3), 62-67, 2014
922014
Silica-supported gold catalyst modified by doping with titania for cyclohexane oxidation
LX Xu, CH He, MQ Zhu, KJ Wu, YL Lai
Catalysis Letters 118, 248-253, 2007
812007
Speed of sound of ionic liquids: Database, estimation, and its application for thermal conductivity prediction
KJ Wu, QL Chen, CH He
AIChE Journal 60 (3), 1120-1131, 2014
782014
Synthesis of narrow sized silver nanoparticles in the absence of capping ligands in helical microreactors
KJ Wu, GMDV Bohan, L Torrente-Murciano
Reaction Chemistry & Engineering 2 (2), 116-128, 2017
742017
Development of a group contribution method for determination of thermal conductivity of ionic liquids
KJ Wu, CX Zhao, CH He
Fluid Phase Equilibria 339, 10-14, 2013
732013
Nucleation and growth in solution synthesis of nanostructures–from fundamentals to advanced applications
KJ Wu, CM Edmund, C Shang, Z Guo
Progress in Materials Science 123, 100821, 2022
662022
Surface stabilization of gold by sol–gel post-modification of alumina support with silica for cyclohexane oxidation
LX Xu, CH He, MQ Zhu, KJ Wu, YL Lai
Catalysis Communications 9 (5), 816-820, 2008
562008
A simple corresponding-states group-contribution method for estimating surface tension of ionic liquids
KJ Wu, CX Zhao, CH He
Fluid phase equilibria 328, 42-48, 2012
542012
Continuous synthesis of tuneable sized silver nanoparticles via a tandem seed-mediated method in coiled flow inverter reactors
KJ Wu, L Torrente-Murciano
Reaction Chemistry & Engineering 3 (3), 267-276, 2018
502018
Continuous low temperature synthesis of MAPbX 3 perovskite nanocrystals in a flow reactor
X Liang, RW Baker, K Wu, W Deng, D Ferdani, PS Kubiak, F Marken, ...
Reaction Chemistry & Engineering 3 (5), 640-644, 2018
452018
Modification of ammonia decomposition activity of ruthenium nanoparticles by N-doping of CNT supports
TE Bell, G Zhan, K Wu, HC Zeng, L Torrente-Murciano
Topics in Catalysis 60, 1251-1259, 2017
442017
Hydrodynamic study of single-and two-phase flow in an advanced-flow reactor
KJ Wu, V Nappo, S Kuhn
Industrial & Engineering Chemistry Research 54 (30), 7554-7564, 2015
432015
Thermal conductivity of ionic liquids at atmospheric pressure: Database, analysis, and prediction using a topological index method
QL Chen, KJ Wu, CH He
Industrial & Engineering Chemistry Research 53 (17), 7224-7232, 2014
392014
Microfluidic fabrication of fluorescent nanomaterials: A review
L Lin, Y Yin, SA Starostin, H Xu, C Li, K Wu, C He, V Hessel
Chemical Engineering Journal 425, 131511, 2021
382021
Mixing performance and continuous production of nanomaterials in an advanced-flow reactor
M Yang, L Yang, J Zheng, N Hondow, RA Bourne, T Bailey, G Irons, ...
Chemical Engineering Journal 412, 128565, 2021
362021
Enantioseparation of flurbiprofen enantiomers using chiral ionic liquids by liquid‐liquid extraction
X Cui, Q Ding, RN Shan, CH He, KJ Wu
Chirality 31 (6), 457-467, 2019
332019
Thermal Conductivities of [EMIM][EtSO4], [EMIM][EtSO4] + C2H5OH, [EMIM][EtSO4] + H2O, and [EMIM][EtSO4] + C2H5OH + H2O at T = (283.15 to 343 …
QL Chen, KJ Wu, CH He
Journal of Chemical & Engineering Data 58 (7), 2058-2064, 2013
312013
Continuous synthesis of hollow silver–palladium nanoparticles for catalytic applications
KJ Wu, Y Gao, L Torrente-Murciano
Faraday Discussions 208, 427-441, 2018
302018
Thermal Conductivity of DMSO + C2H5OH, DMSO + H2O, and DMSO + C2H5OH + H2O Mixtures at T = (278.15 to 338.15) K
JC Zhou, YY Che, KJ Wu, J Shen, CH He
Journal of Chemical & Engineering Data 58 (3), 663-670, 2013
282013
Quantum chemistry calculation aided design of chiral ionic liquid‐based extraction system for amlodipine separation
Q Ding, X Cui, GH Xu, CH He, KJ Wu
AIChE Journal 64 (11), 4080-4088, 2018
242018
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