Artikler med krav om offentlig adgang - Daniel P. AbrahamFå flere oplysninger
Ikke tilgængelige nogen steder: 10
What makes fluoroethylene carbonate different?
IA Shkrob, JF Wishart, DP Abraham
The Journal of Physical Chemistry C 119 (27), 14954-14964, 2015
Krav: US Department of Energy
Fundamental mechanisms of solvent decomposition involved in solid-electrolyte interphase formation in sodium ion batteries
H Kumar, E Detsi, DP Abraham, VB Shenoy
Chemistry of Materials 28 (24), 8930-8941, 2016
Krav: US National Science Foundation
In situ measurement of solid electrolyte interphase evolution on silicon anodes using atomic force microscopy
I Yoon, DP Abraham, BL Lucht, AF Bower, PR Guduru
Advanced Energy Materials 6 (12), 1600099, 2016
Krav: US Department of Energy
On the Localized Nature of the Structural Transformations of Li2MnO3 Following Electrochemical Cycling
PJ Phillips, J Bareño, Y Li, DP Abraham, RF Klie
Advanced Energy Materials 5 (23), 1501252, 2015
Krav: US Department of Energy
In situ stress evolution in Li1+ xMn2O4 thin films during electrochemical cycling in li-ion cells
J Sheth, NK Karan, DP Abraham, CC Nguyen, BL Lucht, BW Sheldon, ...
Journal of The Electrochemical Society 163 (13), A2524, 2016
Krav: US Department of Energy
Chemical “Pickling” of phosphite additives mitigates impedance rise in Li ion batteries
C Peebles, J Garcia, AP Tornheim, R Sahore, J Bareño, C Liao, IA Shkrob, ...
The Journal of Physical Chemistry C 122 (18), 9811-9824, 2018
Krav: US Department of Energy
LiNi0.8Co0.2O2-based high-power lithium-ion battery positive electrodes analyzed by X-ray photoelectron spectroscopy: 1. Fresh electrode
RT Haasch, DA Abraham
Surface Science Spectra 23 (2), 118-128, 2017
Krav: US Department of Energy
(Invited) Lithium-Ion Transport in Ncm Oxides: Effect of Crystallographic Evolution during Delithiation
KPC Yao, K Kalaga, JA Gilbert, J Okasinski, J Almer, DP Abraham
Electrochemical Society Meeting Abstracts 232, 223-223, 2017
Krav: US Department of Energy
LiNi0.8Co0.2O2-based high-power lithium-ion battery positive electrodes analyzed by X-ray photoelectron spectroscopy: 4. Following calendar-life test for 8 weeks at 50 °C, 60 …
RT Haasch, DA Abraham
Surface Science Spectra 23 (2), 149-156, 2017
Krav: US Department of Energy
Exploring Cycling Behavior of Lifsi-Bearing Electrolytes in Li1.03(Ni0.5Mn0.3Co0.2)0.97O2//Graphite cells
KZ Pupek, TL Dzwiniel, G Krumdick, M Klett, DP Abraham
Electrochemical Society Meeting Abstracts 227, 65-65, 2015
Krav: US Department of Energy
Tilgængelige et sted: 110
Transition metal dissolution, ion migration, electrocatalytic reduction and capacity loss in lithium-ion full cells
JA Gilbert, IA Shkrob, DP Abraham
Journal of The Electrochemical Society 164 (2), A389, 2017
Krav: US Department of Energy
Unraveling the voltage-fade mechanism in high-energy-density lithium-ion batteries: origin of the tetrahedral cations for spinel conversion
D Mohanty, J Li, DP Abraham, A Huq, EA Payzant, DL Wood III, C Daniel
Chemistry of Materials 26 (21), 6272-6280, 2014
Krav: US Department of Energy
Calendar aging of silicon-containing batteries
JD McBrayer, MTF Rodrigues, MC Schulze, DP Abraham, CA Apblett, ...
Nature Energy 6 (9), 866-872, 2021
Krav: US Department of Energy
Resolving the discrepancy in tortuosity factor estimation for Li-ion battery electrodes through micro-macro modeling and experiment
FLE Usseglio-Viretta, A Colclasure, AN Mistry, KPY Claver, ...
Journal of The Electrochemical Society 165 (14), A3403-A3426, 2018
Krav: US Department of Energy
Cycling behavior of NCM523/graphite lithium-ion cells in the 3–4.4 V range: diagnostic studies of full cells and harvested electrodes
JA Gilbert, J Bareño, T Spila, SE Trask, DJ Miller, BJ Polzin, AN Jansen, ...
Journal of The Electrochemical Society 164 (1), A6054, 2016
Krav: US Department of Energy
Chemical weathering of layered Ni-rich oxide electrode materials: evidence for cation exchange
IA Shkrob, JA Gilbert, PJ Phillips, R Klie, RT Haasch, J Bareño, ...
Journal of The Electrochemical Society 164 (7), A1489, 2017
Krav: US National Science Foundation, US Department of Energy
Operando quantification of (de) lithiation behavior of silicon–graphite blended electrodes for lithium‐ion batteries
KPC Yao, JS Okasinski, K Kalaga, JD Almer, DP Abraham
Advanced Energy Materials 9 (8), 1803380, 2019
Krav: US Department of Energy
Quantifying lithium concentration gradients in the graphite electrode of Li-ion cells using operando energy dispersive X-ray diffraction
KPC Yao, JS Okasinski, K Kalaga, IA Shkrob, DP Abraham
Energy & Environmental Science 12 (2), 656-665, 2019
Krav: US Department of Energy
Galvanostatic intermittent titration and performance based analysis of LiNi0. 5Co0. 2Mn0. 3O2 cathode
A Verma, K Smith, S Santhanagopalan, D Abraham, KP Yao, ...
Journal of The Electrochemical Society 164 (13), A3380, 2017
Krav: US Department of Energy
Manganese in graphite anode and capacity fade in Li ion batteries
IA Shkrob, AJ Kropf, TW Marin, Y Li, OG Poluektov, J Niklas, DP Abraham
The Journal of Physical Chemistry C 118 (42), 24335-24348, 2014
Krav: US Department of Energy
Oplysninger om publikation og økonomisk støtte registreres automatisk af et computerprogram