Michael J. Janik
Michael J. Janik
Professor of Chemical Engineering, Pennsylvania State University
Verified email at psu.edu - Homepage
TitleCited byYear
Selectivity of CO2 Reduction on Copper Electrodes: The Role of the Kinetics of Elementary Steps
X Nie, MR Esopi, MJ Janik, A Asthagiri
Angewandte Chemie International Edition 52 (9), 2459-2462, 2013
The ReaxFF reactive force-field: development, applications and future directions
TP Senftle, S Hong, MM Islam, SB Kylasa, Y Zheng, YK Shin, ...
npj Computational Materials 2, 15011, 2016
A first principles comparison of the mechanism and site requirements for the electrocatalytic oxidation of methanol and formic acid over Pt
M Neurock, M Janik, A Wieckowski
Faraday discussions 140, 363-378, 2009
Calculated phase diagrams for the electrochemical oxidation and reduction of water over Pt (111)
J Rossmeisl, JK NÝrskov, CD Taylor, MJ Janik, M Neurock
The Journal of Physical Chemistry B 110 (43), 21833-21839, 2006
First-principles analysis of the initial electroreduction steps of oxygen over Pt (111)
MJ Janik, CD Taylor, M Neurock
Journal of the Electrochemical Society 156 (1), B126-B135, 2009
Reaction mechanisms of CO2 electrochemical reduction on Cu (1 1 1) determined with density functional theory
X Nie, W Luo, MJ Janik, A Asthagiri
Journal of catalysis 312, 108-122, 2014
Methane activation and oxygen vacancy formation over CeO2 and Zr, Pd substituted CeO2 surfaces
AD Mayernick, MJ Janik
The Journal of Physical Chemistry C 112 (38), 14955-14964, 2008
Location, acid strength, and mobility of the acidic protons in Keggin 12-H3PW12O40: A combined solid-state NMR spectroscopy and DFT quantum chemical calculation study
J Yang, MJ Janik, D Ma, A Zheng, M Zhang, M Neurock, RJ Davis, C Ye, ...
Journal of the American Chemical Society 127 (51), 18274-18280, 2005
Facet Dependence of CO2 Reduction Paths on Cu Electrodes
W Luo, X Nie, MJ Janik, A Asthagiri
ACS Catalysis 6 (1), 219-229, 2015
Methane oxidation on Pd–Ceria: A DFT study of the mechanism over PdxCe1− xO2, Pd, and PdO
AD Mayernick, MJ Janik
Journal of catalysis 278 (1), 16-25, 2011
Catalysts for nitrogen reduction to ammonia
SL Foster, SIP Bakovic, RD Duda, S Maheshwari, RD Milton, SD Minteer, ...
Nature Catalysis 1 (7), 490-500, 2018
Mechanistic consequences of composition in acid catalysis by polyoxometalate Keggin clusters
J Macht, MJ Janik, M Neurock, E Iglesia
Journal of the American Chemical Society 130 (31), 10369-10379, 2008
Catalytic consequences of composition in polyoxometalate clusters with Keggin structure
J Macht, MJ Janik, M Neurock, E Iglesia
Angewandte Chemie International Edition 46 (41), 7864-7868, 2007
Beyond fossil fuel–driven nitrogen transformations
JG Chen, RM Crooks, LC Seefeldt, KL Bren, RM Bullock, ...
Science 360 (6391), eaar6611, 2018
Direct borohydride oxidation: mechanism determination and design of alloy catalysts guided by density functional theory
G Rostamikia, MJ Janik
Energy & Environmental Science 3 (9), 1262-1274, 2010
A computational and experimental study of anhydrous phosphotungstic acid and its interaction with water molecules
MJ Janik, KA Campbell, BB Bardin, RJ Davis, M Neurock
Applied Catalysis A: General 256 (1-2), 51-68, 2003
Correlating acid properties and catalytic function: a first-principles analysis of alcohol dehydration pathways on polyoxometalates
MJ Janik, J Macht, E Iglesia, M Neurock
The Journal of Physical Chemistry C 113 (5), 1872-1885, 2009
Periodic trends of oxygen vacancy formation and C–H bond activation over transition metal-doped CeO2 (1 1 1) surfaces
MD Krcha, AD Mayernick, MJ Janik
Journal of catalysis 293, 103-115, 2012
First principles analysis of the electrocatalytic oxidation of methanol and carbon monoxide
MJ Janik, CD Taylor, M Neurock
Topics in Catalysis 46 (3-4), 306-319, 2007
Polymers for energy storage and delivery: polyelectrolytes for batteries and fuel cells
KA Page, CL Soles, J Runt
American Chemical Society, 2012
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