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李 琪

Ph. D., University of Tsukuba, Japan (2014-2017)

工学博士,日本筑波大学

Post-doc., National Institute of Advanced Industrial Science and Technology (AIST), Japan (2017-2018)

博士后,日本国立产业技术综合研究所


Associate Professor, Shaanxi Normal University (2018.07-present)

副教授,英国威廉希尔公司官网


Tel: +86-(0)29-81530702

E-mail: clliqi@snnu.edu.cn

办公室:致知楼2409

       

 


1电极材料的设计及制备


2新型储能电池研究(如锂离子电池、锂硫电池、钠离子电池及液流电池等)


3光催化材料及太阳能在二次电池中的存储研究


近年承担项目

[1] 主持英国威廉希尔公司官网引进人才科研启动基本资金项目,2018.07-2021.07


[2] 主持国家自然科学基金青年基金项目,2020.01-2022.12


[3] 主持陕西省自然科学基础研究计划项目,2019.01-2020.12


[4] 主持陕西省高校青年杰出人才支持计划项目,2019.01-2021.12

近年发表论文

1. A superlattice-stabilized layered oxide cathode for sodium-ion batteries, Advanced Materials, 2020, 1907936.


2. Both cationic and anionic co-(de)intercalation into a metal-oxide material, Joule, 2018, 2, 1134.


3. A high-crystalline NaV1.25Ti0.75O4 anode for wide-temperature sodium-ion battery, Advanced Energy Materials, 2018, 8, 1801162.


4. Porous hybrid aerogels with ultrahigh sulfur loading for lithium-sulfur batteries, Journal of Materials Chemistry A, 2018, 6, 9032.


5. Solar-driven efficient Li2O2 oxidation in solid-state Li-ion O2 batteries, Energy Storage Materials, 2018, 11, 170.


6. Boosting the cycle life of aprotic Li-O2 batteries via a photo-assisted hybrid Li2O2-scavenging strategy, Small Methods, 2018, 2, 1700284.


7. Environmentally stable interface of layered oxide cathodes for sodium-ion batteries, Nature Communications, 2017, 8, 135.


8. Solar energy storage in the rechargeable batteries, Nano Today, 2017, 16, 46.


9. A post-spinel anode enabling sodium-ion ultralong cycling and superfast transport via 1D channels, Advanced Energy Materials, 2017, 7, 1700361.


10. Tunable electrochemistry via controlling lattice water in layered oxides of sodium-ion batteries, Applied Materials Interfaces, 2017, 9, 34909.


11. High-safety and low-cost photoassisted chargeable aqueous sodium-ion batteries with 90% input electric energy savings, Advanced Energy Materials, 2016, 6, 1600632.


12. Lowering the charge voltage of Li-O2 batteries via an unmediated photoelectrochemical oxidation approach, Journal of Materials Chemistry A, 2016, 4, 12411.


13. Saving electric energy by integrating a photoelectrode into a Li-ion battery, Journal of Materials Chemistry A, 2015, 3, 20903.


14. High performance graphene/manganese oxide hybrid electrode with flexible holey structure, Electrochimica Acta, 2014, 129, 237.


15. Electro-capacitive performance of graphene/Co3O4 hybrid nanocomposite prepared by a nanosheet assembly route, Electrochimica Acta, 2014, 119, 184.


16. Graphene/vanadium oxide hybrid electrodes for electrochemical capacitors, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2014, 461, 105.




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