Solid-State NMR on the Family of Positive Electrode Materials Li_2Ru_{1-y}Sn_yO_3 for Li-ion batteries

Simulation of static and dynamic magnetic resonance parameters for solid mixed conductors

Köcher, Simone Swantje

January 2019

A detailed understanding of the atomistic processes within a lithium ion battery is expected to faci...

Revealing the Impact of Film-Forming Electrolyte Additives on Lithium Metal Batteries via Solid-State NMR/MRI Analysis

Hsieh, Yi-Chen
Thienenkamp, Johannes Helmut
Huang, Chen-Jui
Tao, Hsien-Chu
Rodehorst, Uta
Hwang, Bing Joe
Winter, Martin
Brunklaus, Gunther

January 2022

Because of the high specific capacity and low redox potential, lithium metal constitutes a promising...

Selective NMR observation of the SEI-metal interface by dynamic nuclear polarisation from lithium metal.

Hope, Michael A
Rinkel, Bernardine
Gunnarsdóttir, Anna B
Märker, Katharina
Menkin, Svetlana
Paul, Subhradip
Sergeyev, Ivan V
Grey, Clare

May 2020

While lithium metal represents the ultimate high-energy-density battery anode material, its use is l...

Solid-State NMR on the Family of Positive Electrode Materials Li_2Ru_{1-y}Sn_yO_3 for Li-ion batteries

Salager, Elodie
Sarou-Kanian, Vincent
Sathiya, M.
Tang, Mingxue
Leriche, Jean-Bernard
Melin, Philippe
Wang, Zhongli
Vezin, Hervé
Bessada, Catherine
Deschamps, Michael
Tarascon, Jean‐Marie

January 2014

This document is the Accepted Manuscript version of a Published Work that appeared in final form in ...

Solid-state NMR of the family of positive electrode materials Li2Ru1-ySnyO3 for lithium-ion batteries

Salager, E.
Sarou-Kanian, V.
Sathiya, M.
Tang, M.
Leriche, J.B.
Melin, P.
Wang, Z.
Vezin, H.
Bessada, C.
Deschamps, Michael
Tarascon, J.M.

January 2014

The possibilities offered by ex situ and in situ operando 7Li solid-state nuclear magnetic resonance...

Solid-State NMR of the Family of Positive Electrode Materials Li2Ru1–ySnyO3 for Lithium-Ion Batteries

Elodie Salager (1665958)
Vincent Sarou-Kanian (1700194)
M. Sathiya (1700203)
Mingxue Tang (1366698)
Jean-Bernard Leriche (1700197)
Philippe Melin (1700209)
Zhongli Wang (1700200)
Hervé Vezin (1590703)
Catherine Bessada (1507180)
Michael Deschamps (1700206)
Jean-Marie Tarascon (1377048)

December 2014

The possibilities offered by ex situ and in situ operando 7Li solid-state nuclear magneti...

Solid‐State NMR and MRI Spectroscopy for Li/Na Batteries: Materials, Interface, and In Situ Characterization

Liu, Xiangsi
Liang, Ziteng
Xiang, Yuxuan
Lin, Min
Li, Qi
Liu, Zigeng
Zhong, Guiming
Fu, Riqiang
Yang, Yong

March 2022

Enhancing the electrochemical performance of batteries, including the lifespan, energy, and power de...

Development of operando solid-state Nuclear Magnetic Resonance Spectroscopy (ssNMR) for metal-oxygen batteries

Gauthier, Magali
Wong, Alan

July 2019

International audienceRechargeable metal-O2 batteries have attracted much attention in recent years ...

NMR Studies of Interfacial Reactions in Lithium-Ion Batteries

Rinkel, Bernardine

February 2022

The development of rechargeable batteries with higher energy densities and longer lifetimes represen...

Nuclear Magnetic Resonance for interfaces in rechargeable batteries

Bagheri, Khashayar
Deschamps, Michael
Salager, Elodie

January 2023

International audienceNuclear Magnetic Resonance (NMR) is a powerful technique to probe the local en...

Multinuclear NMR Investigations of Local Structure, Distortions and Redox Mechanisms in Layered Lithium Ion Battery Cathode Materials

Reeves, Philip James

March 2020

Lithium ion (Li ion) battery technology has enabled a complete revolution in consumer electronics an...

Monitoring the Electrochemical Processes in the Lithium−Air Battery by Solid State NMR Spectroscopy

Michal Leskes
Amy J. Moore
Gillian R. Goward
Clare P. Grey

August 2016

ABSTRACT: A multi-nuclear solid-state NMR approach is employed to investigate the lithium−air batter...

SOLID-STATE NMR INVESTIGATION OF STRUCTURE AND DYNAMICS OF SOLID ELECTROLYTES AND COATINGS FOR LI-ION BATTERY APPLICATIONS

Emge, Steffen

December 2020

Li-ion batteries have revolutionised energy storage in portable electronics. 30 years later, batteri...

Analysis of Electrolytes for Lithium Ion Batteries Using Solid State NMR Methods

T. L. Spencer
G. R. Goward

October 2016

The development of novel electrolyte materials for lithium ion batteries has been the focus of much ...

Materials’ Methods: NMR in Battery Research

Pecher, Oliver
Carretero-González, J
Griffith, Kent
Grey, Clare

January 2017

Improving electrochemical energy storage is one of the major issues of our time. The search for new ...

Simulation of static and dynamic magnetic resonance parameters for solid mixed conductors

Köcher, Simone Swantje

January 2019

A detailed understanding of the atomistic processes within a lithium ion battery is expected to faci...

Revealing the Impact of Film-Forming Electrolyte Additives on Lithium Metal Batteries via Solid-State NMR/MRI Analysis

Hsieh, Yi-Chen
Thienenkamp, Johannes Helmut
Huang, Chen-Jui
Tao, Hsien-Chu
Rodehorst, Uta
Hwang, Bing Joe
Winter, Martin
Brunklaus, Gunther

January 2022

Because of the high specific capacity and low redox potential, lithium metal constitutes a promising...

Selective NMR observation of the SEI-metal interface by dynamic nuclear polarisation from lithium metal.

Hope, Michael A
Rinkel, Bernardine
Gunnarsdóttir, Anna B
Märker, Katharina
Menkin, Svetlana
Paul, Subhradip
Sergeyev, Ivan V
Grey, Clare

May 2020

While lithium metal represents the ultimate high-energy-density battery anode material, its use is l...

Solid-State NMR on the Family of Positive Electrode Materials Li_2Ru_{1-y}Sn_yO_3 for Li-ion batteries

Salager, Elodie
Sarou-Kanian, Vincent
Sathiya, M.
Tang, Mingxue
Leriche, Jean-Bernard
Melin, Philippe
Wang, Zhongli
Vezin, Hervé
Bessada, Catherine
Deschamps, Michael
Tarascon, Jean‐Marie

January 2014

This document is the Accepted Manuscript version of a Published Work that appeared in final form in ...

Solid-state NMR of the family of positive electrode materials Li2Ru1-ySnyO3 for lithium-ion batteries

Salager, E.
Sarou-Kanian, V.
Sathiya, M.
Tang, M.
Leriche, J.B.
Melin, P.
Wang, Z.
Vezin, H.
Bessada, C.
Deschamps, Michael
Tarascon, J.M.

January 2014

The possibilities offered by ex situ and in situ operando 7Li solid-state nuclear magnetic resonance...

Solid-State NMR of the Family of Positive Electrode Materials Li2Ru1–ySnyO3 for Lithium-Ion Batteries

Elodie Salager (1665958)
Vincent Sarou-Kanian (1700194)
M. Sathiya (1700203)
Mingxue Tang (1366698)
Jean-Bernard Leriche (1700197)
Philippe Melin (1700209)
Zhongli Wang (1700200)
Hervé Vezin (1590703)
Catherine Bessada (1507180)
Michael Deschamps (1700206)
Jean-Marie Tarascon (1377048)

December 2014

The possibilities offered by ex situ and in situ operando 7Li solid-state nuclear magneti...

Solid‐State NMR and MRI Spectroscopy for Li/Na Batteries: Materials, Interface, and In Situ Characterization

Liu, Xiangsi
Liang, Ziteng
Xiang, Yuxuan
Lin, Min
Li, Qi
Liu, Zigeng
Zhong, Guiming
Fu, Riqiang
Yang, Yong

March 2022

Enhancing the electrochemical performance of batteries, including the lifespan, energy, and power de...

Development of operando solid-state Nuclear Magnetic Resonance Spectroscopy (ssNMR) for metal-oxygen batteries

Gauthier, Magali
Wong, Alan

July 2019

International audienceRechargeable metal-O2 batteries have attracted much attention in recent years ...

NMR Studies of Interfacial Reactions in Lithium-Ion Batteries

Rinkel, Bernardine

February 2022

The development of rechargeable batteries with higher energy densities and longer lifetimes represen...

Nuclear Magnetic Resonance for interfaces in rechargeable batteries

Bagheri, Khashayar
Deschamps, Michael
Salager, Elodie

January 2023

International audienceNuclear Magnetic Resonance (NMR) is a powerful technique to probe the local en...

Multinuclear NMR Investigations of Local Structure, Distortions and Redox Mechanisms in Layered Lithium Ion Battery Cathode Materials

Reeves, Philip James

March 2020

Lithium ion (Li ion) battery technology has enabled a complete revolution in consumer electronics an...

Monitoring the Electrochemical Processes in the Lithium−Air Battery by Solid State NMR Spectroscopy

Michal Leskes
Amy J. Moore
Gillian R. Goward
Clare P. Grey

August 2016

ABSTRACT: A multi-nuclear solid-state NMR approach is employed to investigate the lithium−air batter...

SOLID-STATE NMR INVESTIGATION OF STRUCTURE AND DYNAMICS OF SOLID ELECTROLYTES AND COATINGS FOR LI-ION BATTERY APPLICATIONS

Emge, Steffen

December 2020

Li-ion batteries have revolutionised energy storage in portable electronics. 30 years later, batteri...

Analysis of Electrolytes for Lithium Ion Batteries Using Solid State NMR Methods

T. L. Spencer
G. R. Goward

October 2016

The development of novel electrolyte materials for lithium ion batteries has been the focus of much ...

Materials’ Methods: NMR in Battery Research

Pecher, Oliver
Carretero-González, J
Griffith, Kent
Grey, Clare

January 2017

Improving electrochemical energy storage is one of the major issues of our time. The search for new ...

Simulation of static and dynamic magnetic resonance parameters for solid mixed conductors

Köcher, Simone Swantje

January 2019

A detailed understanding of the atomistic processes within a lithium ion battery is expected to faci...

Revealing the Impact of Film-Forming Electrolyte Additives on Lithium Metal Batteries via Solid-State NMR/MRI Analysis

Hsieh, Yi-Chen
Thienenkamp, Johannes Helmut
Huang, Chen-Jui
Tao, Hsien-Chu
Rodehorst, Uta
Hwang, Bing Joe
Winter, Martin
Brunklaus, Gunther

January 2022

Because of the high specific capacity and low redox potential, lithium metal constitutes a promising...

Selective NMR observation of the SEI-metal interface by dynamic nuclear polarisation from lithium metal.

Hope, Michael A
Rinkel, Bernardine
Gunnarsdóttir, Anna B
Märker, Katharina
Menkin, Svetlana
Paul, Subhradip
Sergeyev, Ivan V
Grey, Clare

May 2020

While lithium metal represents the ultimate high-energy-density battery anode material, its use is l...

Solid-State NMR on the Family of Positive Electrode Materials Li_2Ru_{1-y}Sn_yO_3 for Li-ion batteries

Abstract

Extracted data

Solid-State NMR on the Family of Positive Electrode Materials Li_2Ru_{1-y}Sn_yO_3 for Li-ion batteries

Abstract

Extracted data

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