Christian Reece
Christian Reece
Rowland Fellow, Harvard University
Bestätigte E-Mail-Adresse bei
Zitiert von
Zitiert von
Electronic and optical properties of single crystal SnS 2: an earth-abundant disulfide photocatalyst
LA Burton, TJ Whittles, D Hesp, WM Linhart, JM Skelton, B Hou, ...
Journal of Materials Chemistry A 4 (4), 1312-1318, 2016
Identification of the catalytically active component of Cu–Zr–O catalyst for the hydrogenation of levulinic acid to γ-valerolactone
S Ishikawa, DR Jones, S Iqbal, C Reece, DJ Morgan, DJ Willock, ...
Green Chemistry 19 (1), 225-236, 2017
Structure sensitivity in catalytic hydrogenation at platinum surfaces measured by shell-isolated nanoparticle enhanced Raman spectroscopy (SHINERS)
S Guan, O Donovan-Sheppard, C Reece, DJ Willock, AJ Wain, GA Attard
ACS Catalysis 6 (3), 1822-1832, 2016
Elucidating the Role of CO2 in the Soft Oxidative Dehydrogenation of Propane over Ceria-Based Catalysts
E Nowicka, C Reece, SM Althahban, KMH Mohammed, SA Kondrat, ...
Acs Catalysis 8 (4), 3454-3468, 2018
The conversion of levulinic acid into γ-valerolactone using Cu–ZrO 2 catalysts
DR Jones, S Iqbal, S Ishikawa, C Reece, LM Thomas, PJ Miedziak, ...
Catalysis Science & Technology 6 (15), 6022-6030, 2016
New Architectures for Designed Catalysts: Selective Oxidation using AgAu Nanoparticles on Colloid‐Templated Silica
T Shirman, J Lattimer, M Luneau, E Shirman, C Reece, M Aizenberg, ...
Chemistry–A European Journal 24 (8), 1833-1837, 2018
Crossing the great divide between single-crystal reactivity and actual catalyst selectivity with pressure transients
C Reece, EA Redekop, S Karakalos, CM Friend, RJ Madix
Nature Catalysis 1 (11), 852-859, 2018
Gas phase stabiliser-free production of hydrogen peroxide using supported gold–palladium catalysts
A Akram, SJ Freakley, C Reece, M Piccinini, G Shaw, JK Edwards, ...
Chemical science 7 (9), 5833-5837, 2016
The Effects of Dopants on the Cu–ZrO2 Catalyzed Hydrogenation of Levulinic Acid
J Hirayama, I Orlowski, S Iqbal, M Douthwaite, S Ishikawa, PJ Miedziak, ...
The Journal of Physical Chemistry C 123 (13), 7879-7888, 2018
Modelling analysis of the structure and porosity of covalent triazine-based frameworks
C Reece, DJ Willock, A Trewin
Physical Chemistry Chemical Physics 17 (2), 817-823, 2015
A comparative ab initio study of anhydrous dehydrogenation of linear-chain alcohols on Cu (110)
W Chen, ED Cubuk, MM Montemore, C Reece, RJ Madix, CM Friend, ...
The Journal of Physical Chemistry C 122 (14), 7806-7815, 2018
Dissecting the Performance of Nanoporous Gold Catalysts for Oxygen-Assisted Coupling of Methanol with Fundamental Mechanistic and Kinetic Information
C Reece, M Luneau, RJ Madix
ACS Catalysis 9 (5), 4477-4487, 2019
xNi–yCu–ZrO2 catalysts for the hydrogenation of levulinic acid to gamma valorlactone
DR Jones, S Iqbal, L Thomas, S Ishikawa, C Reece, PJ Miedziak, ...
Catalysis, Structure & Reactivity 4 (1), 12-23, 2018
Kinetic analysis and modelling in heterogeneous catalysis
C Reece
Cardiff University, 2017
Predicting a Sharp Decline in Selectivity for Catalytic Esterification of Alcohols from van der Waals Interactions
C Reece, M Luneau, CM Friend, RJ Madix
Angewandte Chemie 132 (27), 10956-10959, 2020
Catalyst design from theory to practice: general discussion
C Campbell, R Van Santen, M Stamatakis, N Collis, HJ Freund, ...
Faraday discussions 188, 279-307, 2016
Bridging model and real catalysts: general discussion
C Campbell, M Bowker, M Stamatakis, G Hutchings, P Davies, J Earley, ...
Faraday discussions 188, 565-589, 2016
Theory: general discussion
M Anand, F Baletto, A Bugaev, R Catlow, M Claeys, M Conway, ...
Faraday Discussions 229, 131-160, 2021
Advanced approaches: general discussion
M Anand, AM Beale, M Boronat, M Bowker, AL Bugaev, VI Bukhtiyarov, ...
Faraday Discussions, 2021
Moving from Fundamental Knowledge of Kinetics and Mechanisms on Surfaces to Prediction of Catalyst Performance in Reactors
C Reece, RJ Madix
ACS Catalysis 11 (5), 3048-3066, 2021
Das System kann den Vorgang jetzt nicht ausführen. Versuchen Sie es später erneut.
Artikel 1–20