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At the Heart of a Conversion Reaction: An Operando X-ray Absorption Spectroscopy Investigation of NiSb2, a Negative Electrode Material for Li-Ion Batteries
The Journal of Physical Chemistry C
◽
10.1021/jp5097579
◽
2014
◽
Vol 118
(48)
◽
pp. 27772-27780
◽
Cited By ~ 17
Author(s):
Cyril Marino
◽
Bernard Fraisse
◽
Manfred Womes
◽
Claire Villevieille
◽
Laure Monconduit
◽
...
Keyword(s):
Absorption Spectroscopy
◽
Electrode Material
◽
Negative Electrode
◽
Li Ion Batteries
◽
Conversion Reaction
◽
X Ray
◽
Li Ion
◽
X Ray Absorption
◽
Negative Electrode Material
Download Full-text
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Resonant inelastic X-ray scattering and X-ray absorption spectroscopy on the negative electrode material Li0.5Ni0.25TiOPO4 in a Li-ion battery
Physical Chemistry Chemical Physics
◽
10.1039/c0cp02668a
◽
2011
◽
Vol 13
(14)
◽
pp. 6544
◽
Cited By ~ 16
Author(s):
H. M. Hollmark
◽
K. Maher
◽
I. Saadoune
◽
T. Gustafsson
◽
K. Edström
◽
...
Keyword(s):
Absorption Spectroscopy
◽
Electrode Material
◽
Negative Electrode
◽
Li Ion Battery
◽
X Ray
◽
X Ray Scattering
◽
Li Ion
◽
X Ray Absorption
◽
Negative Electrode Material
◽
Ray Scattering
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Conversion Reaction Mechanism in Complex Systems: A Triple X-Ray Absorption Spectroscopy Study of Tisnsb, a Very Efficient Negative Electrode Material for Li-Ion Batteries
ECS Meeting Abstracts
◽
10.1149/ma2015-01/2/645
◽
2015
◽
Keyword(s):
Reaction Mechanism
◽
Complex Systems
◽
Electrode Material
◽
Negative Electrode
◽
Li Ion Batteries
◽
Spectroscopy Study
◽
X Ray
◽
Li Ion
◽
X Ray Absorption
◽
Negative Electrode Material
Download Full-text
Unveiling the Complex Redox Reactions of SnO2 in Li-Ion Batteries Using Operando X-ray Photoelectron Spectroscopy and In Situ X-ray Absorption Spectroscopy
ACS Applied Materials & Interfaces
◽
10.1021/acsami.0c17936
◽
2021
◽
Vol 13
(2)
◽
pp. 2547-2557
Author(s):
Marta Mirolo
◽
Xiaohan Wu
◽
Carlos A. F. Vaz
◽
Petr Novák
◽
Mario El Kazzi
Keyword(s):
Absorption Spectroscopy
◽
Photoelectron Spectroscopy
◽
Redox Reactions
◽
Li Ion Batteries
◽
X Ray
◽
Li Ion
◽
X Ray Absorption
Download Full-text
Spray-Drying Synthesized Lithium-Excess Li4Ti5-xNbxO12-δ and Its Electrochemical Property as Negative Electrode Material for Li-Ion Batteries
ECS Meeting Abstracts
◽
10.1149/ma2010-02/11/1057
◽
2010
◽
Keyword(s):
Spray Drying
◽
Electrochemical Property
◽
Electrode Material
◽
Negative Electrode
◽
Li Ion Batteries
◽
Li Ion
◽
Negative Electrode Material
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Isothermal Calorimetry Evaluation of Metallurgical Silicon as a Negative Electrode Material for Li-Ion Batteries
Journal of The Electrochemical Society
◽
10.1149/1945-7111/abe16a
◽
2021
◽
Vol 168
(3)
◽
pp. 030504
Author(s):
V. L. Chevrier
◽
Zilai Yan
◽
Stephen L. Glazier
◽
M. N. Obrovac
◽
L. J. Krause
Keyword(s):
Electrode Material
◽
Isothermal Calorimetry
◽
Negative Electrode
◽
Li Ion Batteries
◽
Metallurgical Silicon
◽
Li Ion
◽
Negative Electrode Material
Download Full-text
Electrochemical Properties of LiNiN as a New Negative Electrode Material for Li-Ion Batteries
ECS Meeting Abstracts
◽
10.1149/ma2007-02/10/690
◽
2007
◽
Keyword(s):
Electrochemical Properties
◽
Electrode Material
◽
Negative Electrode
◽
Li Ion Batteries
◽
Li Ion
◽
Negative Electrode Material
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Facile synthesis of polypyrrole-modified Li5Cr7Ti6O25 with improved rate performance as negative electrode material for Li-ion batteries
Composites Part B Engineering
◽
10.1016/j.compositesb.2019.03.032
◽
2019
◽
Vol 167
◽
pp. 566-572
◽
Cited By ~ 21
Author(s):
Ting-Feng Yi
◽
Jie Mei
◽
Pan-Pan Peng
◽
Shaohua Luo
Keyword(s):
Electrode Material
◽
Negative Electrode
◽
Rate Performance
◽
Li Ion Batteries
◽
Facile Synthesis
◽
Li Ion
◽
Negative Electrode Material
Download Full-text
Spray-Drying Synthesized Lithium-excess Li4+xTi4.95-xNb0.05O12-.DELTA. and its Electrochemical Property as Negative Electrode Material for Li-ion Batteries
Electrochemistry
◽
10.5796/electrochemistry.78.754
◽
2010
◽
Vol 78
(9)
◽
pp. 754-756
◽
Cited By ~ 4
Author(s):
Naoaki KUMAGAI
◽
Daisuke YOSHIKAWA
◽
Yoshihiro KADOMA
◽
Koichi UI
Keyword(s):
Spray Drying
◽
Electrochemical Property
◽
Electrode Material
◽
Negative Electrode
◽
Li Ion Batteries
◽
Li Ion
◽
Negative Electrode Material
Download Full-text
TiO2(B)/Anatase Composites Synthesized by Spray Drying as High Performance Negative Electrode Material in Li-Ion Batteries
ChemSusChem
◽
10.1002/cssc.201300439
◽
2013
◽
Vol 6
(8)
◽
pp. 1312-1315
◽
Cited By ~ 21
Author(s):
Edgar Ventosa
◽
Bastian Mei
◽
Wei Xia
◽
Martin Muhler
◽
Wolfgang Schuhmann
Keyword(s):
Spray Drying
◽
Electrode Material
◽
High Performance
◽
Negative Electrode
◽
Li Ion Batteries
◽
Li Ion
◽
Negative Electrode Material
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NASICON-Type Mg0.5Ti2(PO4)3 Negative Electrode Material Exhibits Different Electrochemical Energy Storage Mechanisms in Na-Ion and Li-Ion Batteries
ACS Applied Materials & Interfaces
◽
10.1021/acsami.6b14196
◽
2017
◽
Vol 9
(5)
◽
pp. 4709-4718
◽
Cited By ~ 32
Author(s):
Yingying Zhao
◽
Zhixuan Wei
◽
Qiang Pang
◽
Yingjin Wei
◽
Yongmao Cai
◽
...
Keyword(s):
Energy Storage
◽
Electrode Material
◽
Negative Electrode
◽
Electrochemical Energy Storage
◽
Li Ion Batteries
◽
Nasicon Type
◽
Li Ion
◽
Negative Electrode Material
◽
Electrochemical Energy
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