Peter Psarras
Peter Psarras
Research Professor at University of Pennsylvania
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Cited by
Cited by
CO2 capture from the industry sector
P Bains, P Psarras, J Wilcox
Progress in Energy and Combustion Science 63, 146-172, 2017
An overview of the status and challenges of CO2 storage in minerals and geological formations
P Kelemen, SM Benson, H Pilorgé, P Psarras, J Wilcox
Frontiers in Climate 1, 482595, 2019
Methane and CO2 Adsorption Capacities of Kerogen in the Eagle Ford Shale from Molecular Simulation
P Psarras, R Holmes, V Vishal, J Wilcox
Accounts of chemical research 50 (8), 1818-1828, 2017
Tunable Polyaniline‐Based Porous Carbon with Ultrahigh Surface Area for CO2 Capture at Elevated Pressure
J He, JWF To, PC Psarras, H Yan, T Atkinson, RT Holmes, D Nordlund, ...
Advanced Energy Materials 6 (14), 1502491, 2016
Cost analysis of direct air capture and sequestration coupled to low-carbon thermal energy in the United States
N McQueen, P Psarras, H Pilorgé, S Liguori, J He, M Yuan, CM Woodall, ...
Environmental science & technology 54 (12), 7542-7551, 2020
Carbon capture and utilization in the industrial sector
PC Psarras, S Comello, P Bains, P Charoensawadpong, S Reichelstein, ...
Environmental science & technology 51 (19), 11440-11449, 2017
Assessment of reasonable opportunities for direct air capture
J Wilcox, PC Psarras, S Liguori
Environmental Research Letters 12 (6), 065001, 2017
Getting to neutral: options for negative carbon emissions in California
SE Baker, JK Stolaroff, G Peridas, SH Pang, HM Goldstein, FR Lucci, W Li, ...
Lawrence Livermore National Lab.(LLNL), Livermore, CA (United States); Univ …, 2020
Cost analysis of carbon capture and sequestration of process emissions from the US industrial sector
H Pilorgé, N McQueen, D Maynard, P Psarras, J He, T Rufael, J Wilcox
Environmental science & technology 54 (12), 7524-7532, 2020
Cost analysis of carbon capture and sequestration from US natural gas-fired power plants
P Psarras, J He, H Pilorgé, N McQueen, A Jensen-Fellows, K Kian, ...
Environmental science & technology 54 (10), 6272-6280, 2020
Natural gas vs. electricity for solvent-based direct air capture
N McQueen, MJ Desmond, RH Socolow, P Psarras, J Wilcox
Frontiers in Climate 2, 618644, 2021
Enhancement of the yield of ammonia by hydrogen‐sink effect during plasma catalysis
J Shah, F Gorky, P Psarras, B Seong, DA Gómez‐Gualdrón, ML Carreon
ChemCatChem 12 (4), 1200-1211, 2020
Slicing the pie: how big could carbon dioxide removal be?
P Psarras, H Krutka, M Fajardy, Z Zhang, S Liguori, NM Dowell, J Wilcox
Wiley Interdisciplinary Reviews: Energy and Environment 6 (5), e253, 2017
The cost of direct air capture and storage can be reduced via strategic deployment but is unlikely to fall below stated cost targets
J Young, N McQueen, C Charalambous, S Foteinis, O Hawrot, M Ojeda, ...
One Earth 6 (7), 899-917, 2023
Molecular simulations of nitrogen-doped hierarchical carbon adsorbents for post-combustion CO 2 capture
P Psarras, J He, J Wilcox
Physical Chemistry Chemical Physics 18 (41), 28747-28758, 2016
Effect of Water on the CO2 Adsorption Capacity of Amine-Functionalized Carbon Sorbents
P Psarras, J He, J Wilcox
Industrial & Engineering Chemistry Research 56 (21), 6317-6325, 2017
Modeling CO2 Transport and Sorption in Carbon Slit Pores
A Kirchofer, M Firouzi, P Psarras, J Wilcox
The Journal of Physical Chemistry C 121 (38), 21018-21028, 2017
The cost of direct air capture and storage: the impact of technological learning, regional diversity, and policy.
J Young, N McQueen, C Charalambous, S Foteinis, O Hawrot, M Ojeda, ...
Material consequences of hydrogen dissolution in palladium alloys observed from first principles
P Psarras, R Anderson, DA Gómez-Gualdrón, J Wilcox
The Journal of Physical Chemistry C 123 (36), 22158-22171, 2019
DFT/QTAIM analysis of the effect of late transition metal doping on methane selectivity in Fischer–Tröpsch catalysis
PC Psarras, DW Ball
Computational and Theoretical Chemistry 1063, 1-9, 2015
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