Andrew E. Pomerantz
Andrew E. Pomerantz
Bestätigte E-Mail-Adresse bei
Zitiert von
Zitiert von
Advances in asphaltene science and the Yen–Mullins model
OC Mullins, H Sabbah, J Eyssautier, AE Pomerantz, L Barré, AB Andrews, ...
Energy & Fuels 26 (7), 3986-4003, 2012
Evidence for island structures as the dominant architecture of asphaltenes
H Sabbah, AL Morrow, AE Pomerantz, RN Zare
Energy & Fuels 25 (4), 1597-1604, 2011
Realistic molecular model of kerogen’s nanostructure
C Bousige, CM Ghimbeu, C Vix-Guterl, AE Pomerantz, A Suleimenova, ...
Nature materials 15 (5), 576-582, 2016
Two-step laser mass spectrometry of asphaltenes
AE Pomerantz, MR Hammond, AL Morrow, OC Mullins, RN Zare
Journal of the American Chemical Society 130 (23), 7216-7217, 2008
Observation and interpretation of a time-delayed mechanism in the hydrogen exchange reaction
SC Althorpe, F Fernández-Alonso, BD Bean, JD Ayers, AE Pomerantz, ...
Nature 416 (6876), 67-70, 2002
Heavy oil based mixtures of different origins and treatments studied by atomic force microscopy
B Schuler, S Fatayer, G Meyer, E Rogel, M Moir, Y Zhang, MR Harper, ...
Energy & Fuels 31 (7), 6856-6861, 2017
Nanoaggregates of asphaltenes in a reservoir crude oil and reservoir connectivity
SS Betancourt, GT Ventura, AE Pomerantz, O Viloria, FX Dubost, J Zuo, ...
Energy & Fuels 23 (3), 1178-1188, 2009
Asphaltene molecular-mass distribution determined by two-step laser mass spectrometry
AE Pomerantz, MR Hammond, AL Morrow, OC Mullins, RN Zare
Energy & Fuels 23 (3), 1162-1168, 2009
Nanoscale geochemical and geomechanical characterization of organic matter in shale
J Yang, J Hatcherian, PC Hackley, AE Pomerantz
Nature communications 8 (1), 1-9, 2017
Evolution of kerogen and bitumen during thermal maturation via semi-open pyrolysis investigated by infrared spectroscopy
PR Craddock, TV Le Doan, K Bake, M Polyakov, AM Charsky, ...
Energy & Fuels 29 (4), 2197-2210, 2015
Laser-based mass spectrometric assessment of asphaltene molecular weight, molecular architecture, and nanoaggregate number
AE Pomerantz, Q Wu, OC Mullins, RN Zare
Energy & Fuels 29 (5), 2833-2842, 2015
Comparison of Coal-Derived and Petroleum Asphaltenes by 13C Nuclear Magnetic Resonance, DEPT, and XRS
AB Andrews, JC Edwards, AE Pomerantz, OC Mullins, D Nordlund, ...
Energy & Fuels 25 (7), 3068-3076, 2011
Green River oil shale pyrolysis: Semi-open conditions
TV Le Doan, NW Bostrom, AK Burnham, RL Kleinberg, AE Pomerantz, ...
Energy & Fuels 27 (11), 6447-6459, 2013
Reaction products with internal energy beyond the kinematic limit result from trajectories far from the minimum energy path: an example from H+ HBr→ H2+ Br
AE Pomerantz, JP Camden, AS Chiou, F Ausfelder, N Chawla, WL Hase, ...
Journal of the American Chemical Society 127 (47), 16368-16369, 2005
Magnetic resonance in porous media: Recent progress
YQ Song, H Cho, T Hopper, AE Pomerantz, PZ Sun
The Journal of chemical physics 128 (5), 02B618, 2008
Laser-based mass spectrometric determination of aggregation numbers for petroleum-and coal-derived asphaltenes
Q Wu, AE Pomerantz, OC Mullins, RN Zare
Energy & Fuels 28 (1), 475-482, 2014
Comparing laser desorption/laser ionization mass spectra of asphaltenes and model compounds
H Sabbah, AL Morrow, AE Pomerantz, OC Mullins, X Tan, MR Gray, ...
Energy & fuels 24 (6), 3589-3594, 2010
Combining biomarker and bulk compositional gradient analysis to assess reservoir connectivity
AE Pomerantz, GT Ventura, AM McKenna, JA Cañas, J Auman, K Koerner, ...
Organic Geochemistry 41 (8), 812-821, 2010
Sulfur chemistry of asphaltenes from a highly compositionally graded oil column
AE Pomerantz, DJ Seifert, KD Bake, PR Craddock, OC Mullins, ...
Energy & Fuels 27 (8), 4604-4608, 2013
Orbitrap mass spectrometry: A proposal for routine analysis of nonvolatile components of petroleum
AE Pomerantz, OC Mullins, G Paul, J Ruzicka, M Sanders
Energy & fuels 25 (7), 3077-3082, 2011
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