Brian A. Rosen
Ionic liquid–mediated selective conversion of CO2 to CO at low overpotentials
BA Rosen, A Salehi-Khojin, MR Thorson, W Zhu, DT Whipple, PJA Kenis, ...
Science 334 (6056), 643-644, 2011
Renewable and metal-free carbon nanofibre catalysts for carbon dioxide reduction
B Kumar, M Asadi, D Pisasale, S Sinha-Ray, BA Rosen, R Haasch, ...
Nature communications 4 (1), 1-8, 2013
Robust carbon dioxide reduction on molybdenum disulphide edges
M Asadi, B Kumar, A Behranginia, BA Rosen, A Baskin, N Repnin, ...
Nature communications 5 (1), 1-8, 2014
Nanoparticle silver catalysts that show enhanced activity for carbon dioxide electrolysis
A Salehi-Khojin, HRM Jhong, BA Rosen, W Zhu, S Ma, PJA Kenis, ...
The Journal of Physical Chemistry C 117 (4), 1627-1632, 2013
In situ spectroscopic examination of a low overpotential pathway for carbon dioxide conversion to carbon monoxide
BA Rosen, JL Haan, P Mukherjee, B Braunschweig, W Zhu, ...
The Journal of Physical Chemistry C 116 (29), 15307-15312, 2012
Microgels as stimuli-responsive stabilizers for emulsions
B Brugger, BA Rosen, W Richtering
Langmuir 24 (21), 12202-12208, 2008
Water enhancement of CO2 conversion on silver in 1-ethyl-3-methylimidazolium tetrafluoroborate
BA Rosen, W Zhu, G Kaul, A Salehi-Khojin, RI Masel
Journal of The Electrochemical Society 160 (2), H138, 2012
Exsolution of Re-alloy catalysts with enhanced stability for methane dry reforming
D Zubenko, S Singh, BA Rosen
Applied Catalysis B: Environmental 209, 711-719, 2017
Influence of LaNiO3 Shape on Its Solid-Phase Crystallization into Coke-Free Reforming Catalysts
S Singh, D Zubenko, BA Rosen
ACS Catalysis 6 (7), 4199-4205, 2016
Tunable Molecular‐Scale Materials for Catalyzing the Low‐Overpotential Electrochemical Conversion of CO2
BA Rosen, I Hod
Advanced Materials 30 (41), 1706238, 2018
Multi-threat performance of kaolin-based shear thickening fluid (STF)-treated fabrics
BA Rosen, CHN Laufer, DP Kalman, ED Wetzel, NJ Wagner
Proceedings of SAMPE 3 (7), 2007
Light and complex 3D MoS 2/graphene heterostructures as efficient catalysts for the hydrogen evolution reaction
J Teich, R Dvir, A Henning, ER Hamo, MJ Moody, H Cohen, TJ Marks, ...
Nanoscale 12 (4), 2715-2725, 2020
Catalyst mixtures
RI Masel, B Rosen
US Patent 8,956,990, 2015
System and method for overlay of a motion video signal on an analog video signal
MA Champion, DH Bessel
US Patent 6,734,919, 2004
Coke-free methane dry reforming over nano-sized NiO-CeO2 solid solution after exsolution
SP Padi, L Shelly, EP Komarala, D Schweke, S Hayun, BA Rosen
Catalysis Communications 138, 105951, 2020
Role of 2D and 3D defects on the reduction of LaNiO3 nanoparticles for catalysis
S Singh, E Prestat, LF Huang, JM Rondinelli, SJ Haigh, BA Rosen
Scientific reports 7 (1), 1-7, 2017
Carbide-Supported PtRu Catalysts for Hydrogen Oxidation Reaction in Alkaline Electrolyte
ER Hamo, RK Singh, JC Douglin, S Chen, MB Hassine, E Carbo-Argibay, ...
ACS Catalysis 11, 932-947, 2021
Electrodeposited Re-promoted Ni foams as a catalyst for the dry reforming of methane
BA Rosen, E Gileadi, N Eliaz
Catalysis Communications 76, 23-28, 2016
Effect of Fe and Mn Substitution in LaNiO3 on Exsolution, Activity, and Stability for Methane Dry Reforming
EP Komarala, I Komissarov, BA Rosen
Catalysts 10 (1), 27, 2019
Progress and opportunities for exsolution in electrochemistry
BA Rosen
Electrochem 1 (1), 32-43, 2020
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