Principles of adsorption and reaction on solid surfaces RI Masel John Wiley & Sons, 1996 | 4177 | 1996 |
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 | 1643 | 2011 |
Direct formic acid fuel cells C Rice, S Ha, RI Masel, P Waszczuk, A Wieckowski, T Barnard Journal of Power Sources 111 (1), 83-89, 2002 | 1069 | 2002 |
Rapid production of metal− organic frameworks via microwave-assisted solvothermal synthesis Z Ni, RI Masel Journal of the American Chemical Society 128 (38), 12394-12395, 2006 | 842 | 2006 |
Catalysts for direct formic acid fuel cells C Rice, S Ha, RI Masel, A Wieckowski Journal of Power Sources 115 (2), 229-235, 2003 | 663 | 2003 |
Size effects in electronic and catalytic properties of unsupported palladium nanoparticles in electrooxidation of formic acid WP Zhou, A Lewera, R Larsen, RI Masel, PS Bagus, A Wieckowski The Journal of Physical Chemistry B 110 (27), 13393-13398, 2006 | 589 | 2006 |
The effect of electrolyte composition on the electroreduction of CO 2 to CO on Ag based gas diffusion electrodes S Verma, X Lu, S Ma, RI Masel, PJA Kenis Physical Chemistry Chemical Physics 18 (10), 7075-7084, 2016 | 497 | 2016 |
Chemical kinetics and catalysis RI Masel Wiley-Interscience, 2001 | 486 | 2001 |
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 | 441 | 2013 |
A priori catalytic activity correlations: the difficult case of hydrogen production from ammonia JC Ganley, FS Thomas, EG Seebauer, RI Masel Catalysis Letters 96, 117-122, 2004 | 428 | 2004 |
Performance characterization of Pd/C nanocatalyst for direct formic acid fuel cells S Ha, R Larsen, RI Masel Journal of Power Sources 144 (1), 28-34, 2005 | 412 | 2005 |
Sustainion imidazolium‐functionalized polymers for carbon dioxide electrolysis RB Kutz, Q Chen, H Yang, SD Sajjad, Z Liu, IR Masel Energy Technology 5 (6), 929-936, 2017 | 408 | 2017 |
Crossover of formic acid through Nafion® membranes YW Rhee, SY Ha, RI Masel Journal of Power Sources 117 (1-2), 35-38, 2003 | 402 | 2003 |
An industrial perspective on catalysts for low-temperature CO2 electrolysis RI Masel, Z Liu, H Yang, JJ Kaczur, D Carrillo, S Ren, D Salvatore, ... Nature nanotechnology 16 (2), 118-128, 2021 | 390 | 2021 |
High power density direct formic acid fuel cells Y Zhu, SY Ha, RI Masel Journal of Power Sources 130 (1-2), 8-14, 2004 | 381 | 2004 |
Grain boundary defect elimination in a zeolite membrane by rapid thermal processing J Choi, HK Jeong, MA Snyder, JA Stoeger, RI Masel, M Tsapatsis Science 325 (5940), 590-593, 2009 | 357 | 2009 |
The behavior of palladium catalysts in direct formic acid fuel cells Y Zhu, Z Khan, RI Masel Journal of Power Sources 139 (1-2), 15-20, 2005 | 338 | 2005 |
Unusually active palladium-based catalysts for the electrooxidation of formic acid R Larsen, S Ha, J Zakzeski, RI Masel Journal of Power Sources 157 (1), 78-84, 2006 | 330 | 2006 |
Electrochemical conversion of CO2 to formic acid utilizing Sustainion™ membranes H Yang, JJ Kaczur, SD Sajjad, RI Masel Journal of CO2 Utilization 20, 208-217, 2017 | 328 | 2017 |
A nanoparticle catalyst with superior activity for electrooxidation of formic acid P Waszczuk, TM Barnard, C Rice, RI Masel, A Wieckowski Electrochemistry Communications 4 (7), 599-603, 2002 | 320 | 2002 |