Reduction reactions of carbonate solvents for lithium ion batteries

An analysis of the thermal decomposition reactions of organic electrolytes used in lithium -ion batteries

Campion, Christopher Lawrence

January 2005

The thermal decomposition of LiPF6 in solution with carbonate solvents has been investigated. The th...

Possible carbon-carbon bond formation during decomposition? Characterization and identification of new decomposition products in lithium ion battery electrolytes by means of SPME-GC-MS

Horsthemke, Fabian
Friesen, Alex
Ibing, Lukas
Klein, Sven
Winter, Martin
Nowak, Sascha

January 2019

Commercially available lithium ion batteries (LIBs) of the 18650 cell format were aged with differen...

A Study of Electrochemical Reduction of Ethylene and Propylene Carbonate Electrolytes on Graphite Using ATR-FTIR Spectroscopy

Zhuang, Guorong V.
Yang, Hui
Blizanac, Berislav
Ross Jr., Philip N.

May 2005

We present results testing the hypothesis that there is a different reaction pathway for the electr...

2162-8726/2014/3(9)/A91/3/$31.00 © The Electrochemical Society Reduction Reactions of Carbonate Solvents for Lithium Ion Batteries

Daniel M. Seo
Dinesh Chalasani
Bharathy S. Parimalam
Rahul Kadam
Mengyun Nie
Brett L. Lucht

October 2016

Lithium naphthalenide has been investigated as a one electron reducing agent for organic carbonates ...

Identification of Li battery electrolyte degradation products through direct synthesis and characterization of alkyl carbonate salts

Gireaud, L.
Grugeon, S.
Laruelle, S.
Pilard, S.
Tarascon, J.-M.

January 2005

Aiming toward the identification of carbonate-based electrolyte degradation species formed during hi...

Understanding the Formation and Evolution of Lithium-Ion Battery Solid Electrolyte Interphase

Subramanian Parimalam, Bharathy

January 2017

Lithium ion batteries are widely used as energy storage devices in a variety of products such as sma...

Deciphering the multi-step degradation mechanisms of carbonate-based electrolyte in Li batteries

Gachot, G.
Grugeon, S.
Armand, M.
Pilard, S.
Guenot, P.
Tarascon, J.-M.
Laruelle, S.

January 2008

Electrolytes are crucial to the safety and long life of Li-ion batteries, however, the understanding...

Improving electrolytes for lithium-ion and lithium oxygen

Chalasani, Dinesh

January 2012

There is an ever increasing demand for fossil fuels. Lithium ion batteries (LIBs) can effectively re...

Fluoroethylene carbonate and vinylene carbonate reduction: Understanding lithium-ion battery electrolyte additives and solid electrolyte interphase formation

Michan, Alison L.
Parimalam, Bharathy S.
Leskes, Michal
Kerber, Rachel N.
Yoon, Taeho
Grey, Clare P.
Lucht, Brett L.

November 2016

We have synthesized the products of fluoroethylene carbonate (FEC) and vinylene carbonate (VC) via l...

Determining the Composition of Carbonate Solvent Systems Used in Lithium-Ion Batteries without Salt Removal

Mohammad Parhizi
Louis Edwards Caceres-Martinez
Brent A. Modereger
Hilkka I. Kenttämaa
Gozdem Kilaz
Jason K. Ostanek

April 2022

In this work, two methods were investigated for determining the composition of carbonate solvent sys...

Identification of Surface Films Formed on Lithium in Propylene Carbonate Solutions

September 2016

FTIR, IR, and XPS have been used to study the films formed on lithium in propylene carbonate solutio...

Identification of diethyl 2,5-dioxahexane dicarboxylate and polyethylene carbonate as decomposition products of ethylene carbonate based electrolytes by Fourier transform infrared spectroscopy

Shi, F
Zhao, H
Liu, G
Ross, PN
Somorjai, GA
Komvopoulos, K

July 2014

The formation of passive films on electrodes due to electrolyte decomposition significantly affects ...

ELECTROCHEMICAL SOCIETY LETTERS Ethylmethylcarbonate, a Promising Solvent for Li-Ion Rechargeable Batteries

Yair Eineli
Stacey R. Thomas
Victor Koch
Doron Aurbach
Boris Markovsky
Er Schechter

September 2016

Ethylmethylcarbonate (EMC) has been found to be a promising solvent for rechargeable Li-ion batterie...

Reduction Reactions of Electrolyte Salts for Lithium Ion Batteries: LiPF6, LiBF4, LiDFOB, LiBOB, and LiTFSI

Parimalam, Bharathy S
Lucht, Brett L.

January 2018

The reduction products of common lithium salts for lithium ion battery electrolytes, LiPF6, LiBF4, l...

Increased Stability Toward Oxygen Reduction Products for Lithium-Air Batteries with Oligoether-Functionalized Silane Electrolytes

?????????

December 2011

The successful development of Li-air batteries would significantly increase the possibility of exten...

An analysis of the thermal decomposition reactions of organic electrolytes used in lithium -ion batteries

Campion, Christopher Lawrence

January 2005

The thermal decomposition of LiPF6 in solution with carbonate solvents has been investigated. The th...

Possible carbon-carbon bond formation during decomposition? Characterization and identification of new decomposition products in lithium ion battery electrolytes by means of SPME-GC-MS

Horsthemke, Fabian
Friesen, Alex
Ibing, Lukas
Klein, Sven
Winter, Martin
Nowak, Sascha

January 2019

Commercially available lithium ion batteries (LIBs) of the 18650 cell format were aged with differen...

A Study of Electrochemical Reduction of Ethylene and Propylene Carbonate Electrolytes on Graphite Using ATR-FTIR Spectroscopy

Zhuang, Guorong V.
Yang, Hui
Blizanac, Berislav
Ross Jr., Philip N.

May 2005

We present results testing the hypothesis that there is a different reaction pathway for the electr...

2162-8726/2014/3(9)/A91/3/$31.00 © The Electrochemical Society Reduction Reactions of Carbonate Solvents for Lithium Ion Batteries

Daniel M. Seo
Dinesh Chalasani
Bharathy S. Parimalam
Rahul Kadam
Mengyun Nie
Brett L. Lucht

October 2016

Lithium naphthalenide has been investigated as a one electron reducing agent for organic carbonates ...

Identification of Li battery electrolyte degradation products through direct synthesis and characterization of alkyl carbonate salts

Gireaud, L.
Grugeon, S.
Laruelle, S.
Pilard, S.
Tarascon, J.-M.

January 2005

Aiming toward the identification of carbonate-based electrolyte degradation species formed during hi...

Understanding the Formation and Evolution of Lithium-Ion Battery Solid Electrolyte Interphase

Subramanian Parimalam, Bharathy

January 2017

Lithium ion batteries are widely used as energy storage devices in a variety of products such as sma...

Deciphering the multi-step degradation mechanisms of carbonate-based electrolyte in Li batteries

Gachot, G.
Grugeon, S.
Armand, M.
Pilard, S.
Guenot, P.
Tarascon, J.-M.
Laruelle, S.

January 2008

Electrolytes are crucial to the safety and long life of Li-ion batteries, however, the understanding...

Improving electrolytes for lithium-ion and lithium oxygen

Chalasani, Dinesh

January 2012

There is an ever increasing demand for fossil fuels. Lithium ion batteries (LIBs) can effectively re...

Fluoroethylene carbonate and vinylene carbonate reduction: Understanding lithium-ion battery electrolyte additives and solid electrolyte interphase formation

Michan, Alison L.
Parimalam, Bharathy S.
Leskes, Michal
Kerber, Rachel N.
Yoon, Taeho
Grey, Clare P.
Lucht, Brett L.

November 2016

We have synthesized the products of fluoroethylene carbonate (FEC) and vinylene carbonate (VC) via l...

Determining the Composition of Carbonate Solvent Systems Used in Lithium-Ion Batteries without Salt Removal

Mohammad Parhizi
Louis Edwards Caceres-Martinez
Brent A. Modereger
Hilkka I. Kenttämaa
Gozdem Kilaz
Jason K. Ostanek

April 2022

In this work, two methods were investigated for determining the composition of carbonate solvent sys...

Identification of Surface Films Formed on Lithium in Propylene Carbonate Solutions

September 2016

FTIR, IR, and XPS have been used to study the films formed on lithium in propylene carbonate solutio...

Identification of diethyl 2,5-dioxahexane dicarboxylate and polyethylene carbonate as decomposition products of ethylene carbonate based electrolytes by Fourier transform infrared spectroscopy

Shi, F
Zhao, H
Liu, G
Ross, PN
Somorjai, GA
Komvopoulos, K

July 2014

The formation of passive films on electrodes due to electrolyte decomposition significantly affects ...

ELECTROCHEMICAL SOCIETY LETTERS Ethylmethylcarbonate, a Promising Solvent for Li-Ion Rechargeable Batteries

Yair Eineli
Stacey R. Thomas
Victor Koch
Doron Aurbach
Boris Markovsky
Er Schechter

September 2016

Ethylmethylcarbonate (EMC) has been found to be a promising solvent for rechargeable Li-ion batterie...

Reduction Reactions of Electrolyte Salts for Lithium Ion Batteries: LiPF6, LiBF4, LiDFOB, LiBOB, and LiTFSI

Parimalam, Bharathy S
Lucht, Brett L.

January 2018

The reduction products of common lithium salts for lithium ion battery electrolytes, LiPF6, LiBF4, l...

Increased Stability Toward Oxygen Reduction Products for Lithium-Air Batteries with Oligoether-Functionalized Silane Electrolytes

?????????

December 2011

The successful development of Li-air batteries would significantly increase the possibility of exten...

An analysis of the thermal decomposition reactions of organic electrolytes used in lithium -ion batteries

Campion, Christopher Lawrence

January 2005

The thermal decomposition of LiPF6 in solution with carbonate solvents has been investigated. The th...

Possible carbon-carbon bond formation during decomposition? Characterization and identification of new decomposition products in lithium ion battery electrolytes by means of SPME-GC-MS

Horsthemke, Fabian
Friesen, Alex
Ibing, Lukas
Klein, Sven
Winter, Martin
Nowak, Sascha

January 2019

Commercially available lithium ion batteries (LIBs) of the 18650 cell format were aged with differen...

A Study of Electrochemical Reduction of Ethylene and Propylene Carbonate Electrolytes on Graphite Using ATR-FTIR Spectroscopy

Zhuang, Guorong V.
Yang, Hui
Blizanac, Berislav
Ross Jr., Philip N.

May 2005

We present results testing the hypothesis that there is a different reaction pathway for the electr...

Reduction reactions of carbonate solvents for lithium ion batteries

Abstract

Extracted data

Reduction reactions of carbonate solvents for lithium ion batteries

Abstract

Extracted data

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