David Wakerley
David Wakerley
Email verificata su college-de-france.fr
TitoloCitata daAnno
Reversible Interconversion of CO2 and Formate by a Molybdenum-Containing Formate Dehydrogenase
A Bassegoda, C Madden, DW Wakerley, E Reisner, J Hirst
Journal of the American Chemical Society 136 (44), 15473-15476, 2014
1102014
Solar-driven reforming of lignocellulose to H2 with a CdS/CdOx photocatalyst
DW Wakerley, MF Kuehnel, KL Orchard, KH Ly, TE Rosser, E Reisner
Nature Energy 2 (4), 17021, 2017
1082017
Oxygen-tolerant proton reduction catalysis: much O 2 about nothing?
DW Wakerley, E Reisner
Energy & Environmental Science 8 (8), 2283-2295, 2015
572015
Development and understanding of cobaloxime activity through electrochemical molecular catalyst screening
DW Wakerley, E Reisner
Physical Chemistry Chemical Physics 16 (12), 5739-5746, 2014
572014
A Poly (cobaloxime)/Carbon Nanotube Electrode: Freestanding Buckypaper with Polymer‐Enhanced H2‐Evolution Performance
B Reuillard, J Warnan, JJ Leung, DW Wakerley, E Reisner
Angewandte Chemie International Edition 55 (12), 3952-3957, 2016
492016
Photocatalytic formic acid conversion on CdS nanocrystals with controllable selectivity for H2 or CO
MF Kuehnel, DW Wakerley, KL Orchard, E Reisner
Angewandte Chemie International Edition 54 (33), 9627-9631, 2015
422015
Boron doped diamond ultramicroelectrodes: a generic platform for sensing single nanoparticle electrocatalytic collisions
D Wakerley, AG Gell, LA Hutton, TS Miller, AJ Bard, JV Macpherson
Chemical Communications 49 (50), 5657-5659, 2013
402013
Proton reduction by molecular catalysts in water under demanding atmospheres
DW Wakerley, MA Gross, E Reisner
Chemical Communications 50 (100), 15995-15998, 2014
382014
Plastic waste as a feedstock for solar-driven H 2 generation
T Uekert, MF Kuehnel, DW Wakerley, E Reisner
Energy & Environmental Science 11 (10), 2853-2857, 2018
172018
Electroreduction of CO2 on Single‐Site Copper‐Nitrogen‐Doped Carbon Material: Selective Formation of Ethanol and Reversible Restructuration of the Metal Sites
D Karapinar, NT Huan, N Ranjbar Sahraie, J Li, D Wakerley, N Touati, ...
Angewandte Chemie International Edition 58 (42), 15098-15103, 2019
102019
Zn–Cu Alloy Nanofoams as Efficient Catalysts for the Reduction of CO2 to Syngas Mixtures with a Potential‐Independent H2/CO Ratio
S Lamaison, D Wakerley, D Montero, G Rousse, D Taverna, D Giaume, ...
ChemSusChem 12 (2), 511-517, 2019
82019
Bio-inspired hydrophobicity promotes CO 2 reduction on a Cu surface
D Wakerley, S Lamaison, F Ozanam, N Menguy, D Mercier, P Marcus, ...
Nature materials, 1-6, 2019
62019
Aerobic Conditions Enhance the Photocatalytic Stability of CdS/CdOx Quantum Dots
DW Wakerley, KH Ly, N Kornienko, KL Orchard, MF Kuehnel, E Reisner
Chemistry–A European Journal 24 (69), 18385-18388, 2018
62018
Research data supporting" Solar-driven reforming of lignocellulose to H2 with a CdS/CdOx photocatalyst"
E Reisner, D Wakerley, MF Kuehnel, T Rosser, K Ly, K Orchard
12017
High-Current-Density CO2-to-CO Electroreduction on Ag-Alloyed Zn Dendrites at Elevated Pressure
S Lamaison, D Wakerley, J Blanchard, D Montero, G Rousse, D Mercier, ...
Joule, 2020
2020
Synthetic approaches to artificial photosynthesis: general discussion
CM Aitchison, V Andrei, D Antn-Garca, UP Apfel, V Badiani, M Beller, ...
Faraday Discussions 215, 242-281, 2019
2019
Raw data supporting Article: Aerobic conditions enhance the photocatalytic stability of CdS/CdOx quantum dots
E Reisner, D Wakerley, KH Ly, N Kornienko, K Orchard, M Kuehnel
2019
Highlights from Faraday Discussion: Artificial Photosynthesis, Cambridge, UK, March 2019
D Wakerley, S Lamaison, CA Caputo
Chemical Communications 55 (58), 8351-8358, 2019
2019
Cover Feature: Aerobic Conditions Enhance the Photocatalytic Stability of CdS/CdOx Quantum Dots (Chem. Eur. J. 69/2018)
DW Wakerley, KH Ly, N Kornienko, KL Orchard, MF Kuehnel, E Reisner
Chemistry–A European Journal 24 (69), 18131-18131, 2018
2018
Raw Data suporting article: Plastic waste as a feedstock for solar-driven H2 generation
E Reisner, T Uekert, D Wakerley, M Kuehnel
2018
Il sistema al momento non pu eseguire l'operazione. Riprova pi tardi.
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