← Leaderboards
Michael J Janik
Pennsylvania State Univ University Park
$3,015,197
Attributed
$5,406,100
Total exposure
15
Grants
6
Lead (contact PI)
Attributed= this PI's even-split share of every grant they're on (the fair, additive number). Exposure = full size of all those grants.
Funding over time
peak $976.7K · FY2007–24$1M$750K$500K$250K$0
'07
'08
'09
'10
'11
'12
'13
'14
'15
'16
'17
'18
'19
'20
'21
'22
'23
'24
Funding mix
By agency
NSF$5,406,100 · 15
By mechanism
—$5,406,100 · 15
Top collaborators
- Robert M Rioux4 shared
- Janna K Maranas2 shared
- Scott T Milner2 shared
- Adri C Van Duin1 shared
- Ezra L Clark1 shared
- Gina A Noh1 shared
- Ralph H Colby1 shared
- Randall Meyer1 shared
Grant awards (15)
Combining DFT with classical simulations to predict solvation and cation effects on electrocatalytic reaction rates$561,518
· FY2024 · ENG
Taming the Complexity of High Entropy Alloy for Catalysis using Multinary Intermetallics$599,814
· FY2023 · MPS
CDS&E: Catalytic Kinetics of Hydrocarbon Transformations from Dynamic Experimental Approaches Combined with on-line Machine Learning$571,784
· FY2021 · ENG
NSF-DFG Echem: Operando Electronic Structure Determination of Iron and its Time-Dependent Dynamics in FexNi100-x(OH)y Electrooxidation Catalysts$404,960
· FY2021 · ENG
Electrocatalysis at the electrode-electrolyte interface: a combined DFT and classical force-field approach$368,427
· FY2020 · ENG
Recycling and separation of critical elements using porous materials$358,893
· FY2020 · ENG
Design rules for synthesis of stable single-site catalysts from experiment and first principles theory$473,205
· FY2018 · MPS
EAGER:GOALI: Bulk Intermetallics with well-defined active sites for selectivity control in selective hydrogenations$234,211
· FY2017 · ENG
Collaborative Research: SusChEM: Manipulation of Reaction Selectivity in the electrochemical environment for biomass-to-chemicals conversions$220,386
· FY2017 · MPS · contact PI
Collaborative Research: Modifying oxide surfaces with functional atomic-layers for nano-engineered catalysts$266,500
· FY2015 · MPS · contact PI
UNS:Collaborative Reasearch: Hydrocarbon conversion on oxysulfide surfaces: Towards the design of sulfur-tolerant reforming catalysts$211,865
· FY2015 · ENG · contact PI
Collaborative Research: Multiscale atomistic modeling tools for electrocatalytic systems$233,051
· FY2013 · ENG · contact PI
REU Site: Chemical Energy Storage and Conversion$270,113
· FY2010 · ENG · contact PI
First Principles Design of Ionomers for Facile Ion Transport$312,510
· FY2009 · ENG
The role of electrolyte/cathode interfacial structure on performance of proton exchange membrane fuel cells$318,863
· FY2007 · ENG · contact PI