Publication detail

Improved Electrochemical performance of NMC Cathode Materials Based on the modification of the Salt Content in the Electrolyte

SEDLAŘÍKOVÁ, M. ORTIZ, M. ČECH, O.

Original Title

Improved Electrochemical performance of NMC Cathode Materials Based on the modification of the Salt Content in the Electrolyte

English Title

Improved Electrochemical performance of NMC Cathode Materials Based on the modification of the Salt Content in the Electrolyte

Language

en

Original Abstract

Thelayered LiMO2 (M=Mn,Co,andNidenotedasNCM),havebeenextensivelystudiedandconsideredtobeapromisingcandidateofcathodematerialforfutureLIBsbecauseoftheirhightheoreticalcapacity,lowcost,safety,highcyclingstabilityandlowtoxicity.However,itisconsideredthattheneedtocontinuewiththesestudies,tobeabletoimprovetheirelectrochemicalbehaviorespeciallywithrespecttoitslowinitialcoulombefficiencyandpoorratecapability,isstillpresent.

English abstract

Thelayered LiMO2 (M=Mn,Co,andNidenotedasNCM),havebeenextensivelystudiedandconsideredtobeapromisingcandidateofcathodematerialforfutureLIBsbecauseoftheirhightheoreticalcapacity,lowcost,safety,highcyclingstabilityandlowtoxicity.However,itisconsideredthattheneedtocontinuewiththesestudies,tobeabletoimprovetheirelectrochemicalbehaviorespeciallywithrespecttoitslowinitialcoulombefficiencyandpoorratecapability,isstillpresent.

Keywords

Li-ion cathod, high voltage

Released

25.08.2019

Full text in the Digital Library

Documents

BibTex


@misc{BUT161350,
  author="Marie {Sedlaříková} and Mariela Gisela {Ortiz} and Ondřej {Čech}",
  title="Improved Electrochemical performance of NMC Cathode Materials Based on the modification of the Salt Content in the Electrolyte",
  annote="Thelayered LiMO2 (M=Mn,Co,andNidenotedasNCM),havebeenextensivelystudiedandconsideredtobeapromisingcandidateofcathodematerialforfutureLIBsbecauseoftheirhightheoreticalcapacity,lowcost,safety,highcyclingstabilityandlowtoxicity.However,itisconsideredthattheneedtocontinuewiththesestudies,tobeabletoimprovetheirelectrochemicalbehaviorespeciallywithrespecttoitslowinitialcoulombefficiencyandpoorratecapability,isstillpresent.",
  chapter="161350",
  year="2019",
  month="august"
}