Artikkelit, joihin on yleisen käytön mandaatti - Paul KenisLisätietoja
Ei saatavilla missään: 6
Nanoporous Copper Films by Additive-Controlled Electrodeposition: CO2 Reduction Catalysis
TTH Hoang, S Ma, JI Gold, PJA Kenis, AA Gewirth
ACS catalysis 7 (5), 3313-3321, 2017
Mandaatit: US National Science Foundation
Selective Electrooxidation of Glycerol to Formic Acid over Carbon Supported Ni1–xMx (M = Bi, Pd, and Au) Nanocatalysts and Coelectrolysis of CO2
MSE Houache, R Safari, UO Nwabara, T Rafaïdeen, GA Botton, ...
ACS Applied Energy Materials 3 (9), 8725-8738, 2020
Mandaatit: Natural Sciences and Engineering Research Council of Canada
The Q-Cycle Mechanism of the bc1 Complex: A Biologist’s Perspective on Atomistic Studies
AR Crofts, SW Rose, RL Burton, AV Desai, PJA Kenis, SA Dikanov
The Journal of Physical Chemistry B 121 (15), 3701-3717, 2017
Mandaatit: US National Science Foundation, US Department of Energy, US National …
Electrohydrodynamic-jet deposition of pt-based fuel cell catalysts
AS Hollinger, PJA Kenis
International Conference on Fuel Cell Science, Engineering and Technology …, 2016
Mandaatit: US National Science Foundation
Role of Automatic Process Control in Quality by Design
M Jiang, NCS Kee, XY Woo, LM Goh, JD Tice, L Zhou, RBH Tan, ...
Comprehensive Quality by Design for Pharmaceutical Product Development and …, 2017
Mandaatit: A*Star, Singapore
Microfluidics for Studying Pharmacodynamics of Antibiotics
R Mohan, AV Desai, C Sanpitakseree, PJA Kenis
Micro‐and Nanosystems for Biotechnology, 177-202, 2016
Mandaatit: US National Science Foundation
Saatavilla jossain: 75
Frontiers, Opportunities, and Challenges in Biochemical and Chemical Catalysis of CO2 Fixation
AM Appel, JE Bercaw, AB Bocarsly, H Dobbek, DL DuBois, M Dupuis, ...
Chemical reviews 113 (8), 6621-6658, 2013
Mandaatit: US National Institutes of Health
Nanoporous Copper–Silver Alloys by Additive-Controlled Electrodeposition for the Selective Electroreduction of CO2 to Ethylene and Ethanol
TTH Hoang, S Verma, S Ma, TT Fister, J Timoshenko, AI Frenkel, ...
Journal of the American Chemical Society 140 (17), 5791-5797, 2018
Mandaatit: US National Science Foundation
Electrochemical CO2-to-ethylene conversion on polyamine-incorporated Cu electrodes
X Chen, J Chen, NM Alghoraibi, DA Henckel, R Zhang, UO Nwabara, ...
Nature Catalysis 4 (1), 20-27, 2021
Mandaatit: US National Science Foundation
Effects of composition of the micro porous layer and the substrate on performance in the electrochemical reduction of CO2 to CO
B Kim, F Hillman, M Ariyoshi, S Fujikawa, PJA Kenis
Journal of Power Sources 312, 192-198, 2016
Mandaatit: US Department of Energy
Influence of dilute feed and pH on electrochemical reduction of CO2 to CO on Ag in a continuous flow electrolyzer
B Kim, S Ma, HRM Jhong, PJA Kenis
Electrochimica Acta 166, 271-276, 2015
Mandaatit: US Department of Energy
A stochastic model for nucleation kinetics determination in droplet-based microfluidic systems
L Goh, K Chen, V Bhamidi, G He, NCS Kee, PJA Kenis, CF Zukoski III, ...
Crystal growth & design 10 (6), 2515-2521, 2010
Mandaatit: US National Institutes of Health
A Nitrogen‐Doped Carbon Catalyst for Electrochemical CO2 Conversion to CO with High Selectivity and Current Density
HRM Jhong, CE Tornow, B Smid, AA Gewirth, SM Lyth, PJA Kenis
ChemSusChem 10 (6), 1094-1099, 2017
Mandaatit: US National Science Foundation, US Department of Energy
Controlling Speciation during CO2 Reduction on Cu-Alloy Electrodes
X Chen, DA Henckel, UO Nwabara, Y Li, AI Frenkel, TT Fister, PJA Kenis, ...
ACS Catalysis 10 (1), 672-682, 2019
Mandaatit: US Department of Energy
Greenhouse Gas Emissions, Energy Efficiency, and Cost of Synthetic Fuel Production Using Electrochemical CO2 Conversion and the Fischer–Tropsch Process
X Li, P Anderson, HRM Jhong, M Paster, JF Stubbins, PJA Kenis
Energy & Fuels 30 (7), 5980-5989, 2016
Mandaatit: US National Science Foundation, US Department of Energy
Methods to study the tumor microenvironment under controlled oxygen conditions
MB Byrne, MT Leslie, HR Gaskins, PJA Kenis
Trends in biotechnology 32 (11), 556-563, 2014
Mandaatit: US National Institutes of Health
High efficiency electrochemical reduction of CO 2 beyond the two-electron transfer pathway on grain boundary rich ultra-small SnO 2 nanoparticles
C Liang, B Kim, S Yang, Y Liu, CF Woellner, Z Li, R Vajtai, W Yang, J Wu, ...
Journal of Materials Chemistry A 6 (22), 10313-10319, 2018
Mandaatit: US Department of Energy
Mammalian target of rapamycin and Rictor control neutrophil chemotaxis by regulating Rac/Cdc42 activity and the actin cytoskeleton
Y He, D Li, SL Cook, MS Yoon, A Kapoor, CV Rao, PJA Kenis, J Chen, ...
Molecular biology of the cell 24 (21), 3369-3380, 2013
Mandaatit: US National Institutes of Health
Fabrication of X-ray compatible microfluidic platforms for protein crystallization
S Guha, SL Perry, AS Pawate, PJA Kenis
Sensors and Actuators B: Chemical 174, 1-9, 2012
Mandaatit: US National Institutes of Health
Gold Nanoparticles on Polymer‐Wrapped Carbon Nanotubes: An Efficient and Selective Catalyst for the Electroreduction of CO2
HRM Jhong, CE Tornow, C Kim, S Verma, JL Oberst, PS Anderson, ...
ChemPhysChem 18 (22), 3274-3279, 2017
Mandaatit: US National Science Foundation, US Department of Energy
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