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Lichunli

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  • Email: lichunli@buct.edu.cn
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  • Introduction
  • Research
  • Teaching
  • Funding
  • Publications
  • Awards
  • Honor Reward
  • Admission

Introduction

Research direction: Basic research and engineering application of chemical energy devices and key materials of them in extreme environments/all-solid-state batteries

Currently host project: National Nature Foundation Youth Project, post-doctoral program, Guangdong Province key development projects and other national/provincial projects, enterprise horizontal projects, Beijing University of Chemical Technology talent introduction project, etc


Education

Work Experience

Social Position

Social Activities

Research

Engaged in the basic research and engineering application of chemical energy devices and the key materials of them in extreme environments/all-solid-state batteries;

Basic research and engineering application of key materials and devices of sodium-ion batteries for energy storage;

Study on high voltage and long life sodium storage mechanism;

Research on solid state of lithium/sodium ion batteries in extreme environment;

Design and preparation of new solid-state electrolyte and study on solid-state interface.

Teaching

Postgraduates

Funding

National Nature Foundation Youth Project, postdoctoral program, Guangdong Province key development projects and other national/provincial projects, enterprise horizontal projects, Beijing University of Chemical Technology talent introduction project and so on

Vertical Project

Horizontal Project

Publications

1.ChunliLi,DaobinMu*,FengWu*.InducingFavorableCationAntisitebyDopingHalogeninNiRichLayeredCathodewithUltrahighStability.AdvancedScience,2019,6(4):1801406.

2.ChunliLi,XinyuZhang,DaobinMu*.StableCyclingofLiNi0.9Co0.05Mn0.05O2/LithiumMetalBatteriesEnabledbySynergisticTuningtheSurfaceStabilityofCathode/Anode.J.EnergyChem.2023,87,342-350.

3.ChengweiMa,RunlongLi,ChunliLi*,JiangqiZhou,YongqingHe,FengJiao*.Interfaceevolutionmechanismofanodefreelithiummetalbatteriesunderphasefieldinteraction,EnergyStorageMaterials,2024.j.ensm.2024.103306.

4.HuilinXie#,ChunliLi#,DaobinMu*,FengWu*.ConsolidatingthegrainboundaryofthegarnetelectrolyteLLZTOwithLi3BO3forhighperformanceLiNi0.8Co0.1Mn0.1O2/LiFePO4hybridsolidbatteries.JournalofMaterialsChemistryA,2019,7(36):20633-20639.

5.ChunliLi,PingZhang,ZhiyuJiang.EffectofnanoCucoatingonporousSipreparedbyacidetchingAl-Sialloypowder.ElectrochimicaActa,2015,161:408-412.

6.ZhiyuJiang*,ChunliLi#,PingZhang.AneasywayforpreparinghighperformanceporoussiliconpowderbyacidetchingAl–Sialloypowderforlithiumionbattery[J].ElectrochimicaActa,2014,115:393-398.

7.LingLiu,YinghuiCai,ZhikunZhao,ChunliLi*,DaobinMu*.Asuccinonitrile-infiltratedsilicaaerogelsynergistically-reinforcedhybridsolidelectrolytefordurablesolid-statelithiummetalbatteries.MaterialsChemistryFrontiers,2022,6(4):430-439.

8.XuezhiMa,HongruZhu;ZhiLi,XiejieDing,ChunliLi*.ResearchProgressinModificationofNickel-RichTernaryCathodeMaterialLiNi0.8Co0.1Mn0.1O2forLithiumIonBatteries.MaterialsScienceForum,2021,1033:126-130

9.ChunliLi,WenshengTian,PingZhang,ZhiyuJiang.ImprovementofcyclingpropertiesforporousSipowderpreparedbyacidetchingAl-Sialloypowder.ElectrochemicalConferenceonenergy&theEnvironment,2014,Shanghai,P.R.China.


Awards

Patent

Honor Reward

Admissions Information