Publication result detail

Lithium-Titanate as Electrode Material for Aprotic Systems 2

FÍBEK, M.; LIBICH, J.; MÁCA, J.; ŠIMEK, A.

Original Title

Lithium-Titanate as Electrode Material for Aprotic Systems 2

English Title

Lithium-Titanate as Electrode Material for Aprotic Systems 2

Type

Paper in proceedings (conference paper)

Original Abstract

This article briefly describes experiments which investigate the mutual compatibility of aprotic solvents with higher fire safety and Lithium Titanate Oxide (LTO) as the negative electrode material for lithium-ion batteries. The work follows the current trend of enhancing fire safety by using new kinds of aprotic solvents along with a new generation of electrode materials which fulfil the intended using of lithium-ion batteries for high power applications, e.g. electric vehicle propulsion. In our work, the examiner of using sulfolane electrolyte (SL) and Li4Ti5O12 (LTO) under various ambient temperatures. The influence of electrolyte on the proper operation and stability of negative electrode material was considered. The measurements were performed in the temperature range from 25 °C up to 80 °C with half-cell connection. Our main objective of these experiments was to prove and investigate a proper operation of an aprotic electrolyte with higher fire safety together with LTO negative material under high ambient temperatures

English abstract

This article briefly describes experiments which investigate the mutual compatibility of aprotic solvents with higher fire safety and Lithium Titanate Oxide (LTO) as the negative electrode material for lithium-ion batteries. The work follows the current trend of enhancing fire safety by using new kinds of aprotic solvents along with a new generation of electrode materials which fulfil the intended using of lithium-ion batteries for high power applications, e.g. electric vehicle propulsion. In our work, the examiner of using sulfolane electrolyte (SL) and Li4Ti5O12 (LTO) under various ambient temperatures. The influence of electrolyte on the proper operation and stability of negative electrode material was considered. The measurements were performed in the temperature range from 25 °C up to 80 °C with half-cell connection. Our main objective of these experiments was to prove and investigate a proper operation of an aprotic electrolyte with higher fire safety together with LTO negative material under high ambient temperatures

Keywords

LTO, negative electrode, aprotic systems, batteries,

Key words in English

LTO, negative electrode, aprotic systems, batteries,

Authors

FÍBEK, M.; LIBICH, J.; MÁCA, J.; ŠIMEK, A.

RIV year

2022

Released

02.12.2021

Publisher

ECS

Location

US

Book

Advanced Batteries Accumulators and Fuel Cells – 22nd ABAF

ISBN

1938-6737

Periodical

ECS Transaction

Volume

105

Number

1

State

United States of America

Pages from

53

Pages to

60

Pages count

8

BibTex

@inproceedings{BUT175545,
  author="Michal {Fíbek} and Jiří {Libich} and Josef {Máca} and Antonín {Šimek}",
  title="Lithium-Titanate as Electrode Material for Aprotic Systems 2",
  booktitle="Advanced Batteries Accumulators and Fuel Cells – 22nd ABAF",
  year="2021",
  journal="ECS Transaction",
  volume="105",
  number="1",
  pages="53--60",
  publisher="ECS",
  address="US",
  doi="10.1149/10501.0053ecst",
  issn="1938-6737"
}