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[交流] 清华大学核研院何向明老师组招锂离子电池正极材料博后

清华大学核研院何向明老师组招锂离子电池正极材料博后，主要用原位XRD研究锂电池失效机理，要求有正极材料研究基础。师资力量雄厚，组内有XRD、SEM、BET等大型仪器，待遇：30-40万年薪+业绩。欢迎加入！
有意向者请附简历发邮件至hongmliang@163.com。

实验室简介：

目前拥有清华大学昌平校区1000平米实验基地、清华大学本部100平米实验室，致力于新能源器件及其关键材料相关的工程科学问题研究，创新研究，及产业中的工程问题解决方案。发表论文400多篇，授权发明专利300多项。10多项成果实现了产业化。https://www.hexmgroup.com/About.Asp?Tid=2

实验室面积充足，可满足化学合成，材料合成，及台架试验。实验室在充分利用清华大学仪器共享服务平台的基础上，实验室还自购比表面积分析仪了BET、X射线衍射仪XRD、扫描电镜SEM等大型仪器。近期还将采购实时红外光谱仪、紫外可见光谱仪、石英晶体微天平、动态光散射仪、高倍激光光学显微镜、高压物理吸附测试仪等大型仪器。

锂离子电池实验室2021年发表学术文章

2021年1-5月

1. Three-Dimensional Covalent Organic Framework with ceqTopology. J. Am. Chem. Soc. 2021, 143 (1), 92-96.

2. Lithium Metal Batteries Enabled by Synergetic Additives in CommercialCarbonate Electrolytes. ACS Energy Letters 2021, 6 (5),1839–1848.

3. Unlocking the self-supported thermal runaway ofhigh-energy lithium-ion batteries. Energy Storage Materials 2021.

4. Thermal-Responsive,Super-Strong, Ultrathin Firewalls for Quenching Thermal Runaway in High-EnergyBattery Modules. Energy Storage Materials 2021.

5. Investigating the Relationship between InternalShort Circuit and Thermal Runaway of Lithium-Ion Batteries under Thermal AbuseCondition. Energy Storage Materials 2021, 34, 563-573.

6. Development of cathode-electrolyte-interphase for safer lithium batteries.Energy Storage Materials 2021, 37 (5), 77-86.

7. Graphite as anode materials: Fundamental mechanism,recent progress and advances. Energy Storage Materials2021, 36,147-170.

8.  Rational design of functional binder systems forhigh-energy lithium-based rechargeable batteries. Energy Storage Materials2021, 35, 353-377.

9. Thermal runawaymechanism of lithium-ion battery with LiNi0.8Mn0.1Co0.1O2 cathode materials. NanoEnergy2021, 85.

10. Benzophenone as indicator detecting lithium metal insidesolid state electrolyte. J. Power Sources 2021, 492, 229661.

11. Investigating the thermal runaway features oflithium-ion batteries using a thermal resistance network model. Appl.Energy 2021, 295.

12. From separator to membrane: separators can function morein lithium ion batteries. Electrochemistry Communications2021, 124.

13.  A practical approach topredict volume deformation of lithium ion batteries from crystal structurechanges of electrode materials. Int J Energ Res 2021.

14.  Unexpected facilitationof the pyrolysis products of potassium ferrocyanide to the electrocatalyticactivity of a PdO based palladium iron composite catalyst towards ethanoloxidation reaction (EOR). Int. J. Hydrog. Energy2021, 46 (1),633-644.

15. Anodic Stabilitiesof Various Metals as the Current Collector in High Concentration Electrolytesfor Lithium Batteries.J. Electrochem. Soc. 2021, 168 (3).

16. Investigation on Thermal Runaway of Li-Ion Cells Basedon LiNi1/3Mn1/3Co1/3O2.Journal of Electrochemical EnergyConversion and Storage 2021, 18 (3), 031001.

17.  A review of lithium-ion battery safety concerns:the issues, strategies, and testing standards. J. Energy Chem.2021, 59,83-99.

18.  Phosphorus-doped lithium- and manganese-rich layeredoxide cathode material for fast charging lithium-ion batteries.J.Energy Chem. 2021.

19.  Internal short circuit evaluation andcorresponding failure mode analysis for lithium-ion batteries. J.Energy Chem. 2021, 61, 269-280.

20. Pry into the thermal andmechanical properties of electrolyte-soaked separators. Journal of the Taiwan Instituteof Chemical Engineers 2021, 119, 269-276.

21. Enhanced Structural Stability and ElectrochemicalPerformance of LiNi0.6Co0.2Mn0.2O2 Cathode Materials by Ga Doping. Materials2021, 14 (8).

22. Preparation and Electrochemical Properties ofLiNi2/3Co1/6Mn1/6O2 Cathode Material for Lithium-Ion Batteries. Materials2021, 14 (7).

23. Unexpected electocatalyticactivity of a micron-sized carbon sphere-graphene (MS-GR) supported palladiumcomposite catalyst for ethanol oxidation reaction (EOR). Mater. Chem. Phys. 2021,259.

24. PEObased polymer-ceramic hybrid solid electrolytes: a review. Nano Convergence 2021, 8(1), 2.

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