锂电材料焦耳热学术论文汇总

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1. (122)Rapid, Universal Surface Engineering of Carbon Materials via Microwave-Induced Carbothermal Shock
微波诱导碳热冲击快速通用碳材料表面工程
Advanced Functional Materials, 2021
通讯作者: Liangbing Hu(马里兰大学)
2. (146)A layered/spinel heterostructured cathode for Li-ion batteries prepared by ultrafast Joule heating
通过超快焦耳加热制备的层状/尖晶石异质结构锂离子电池正极材料
Chemical Engineering Journal, 2024
通讯作者: Yanan Chen, Yunhua Xu(天津大学)
3. (158)Cathode-Electrolyte Interphase Engineering toward Fast-Charging LiFePO₄ Cathodes by Flash Carbon Coating
通过闪速碳包覆实现快充磷酸铁锂正极的阴极-电解质界面工程
Small Methods, 2024
通讯作者: Yufeng Zhao(Corban University)和 James M. Tour(莱斯大学)
4. (159)A Mechanochemically-Triggered, Self-Powered Flash Heating Synthesis of Phosphorous/Carbon Composites for Li-Ion Batteries
用于锂离子电池的磷/碳复合材料的机械化学触发自供电闪速加热合成
Small Methods, 2024
通讯作者: Tao Wang, Sheng Dai(美国橡树岭国家实验室)
5. (169)Facile synthesis of nano-si/graphite-carbon anode through microwave-induced carbothermal shock for lithium-ion batteries
通过微波诱导碳热冲击法简易合成锂离子电池用纳米硅/石墨-碳负极材料
Carbon, 2024
通讯作者: Min-Sik Park(Kyung Hee University)和 Kap-Seung Yang(DecaMaterial Inc.)
6. (180)Ultrafast Dual-Shock Chemistry Synthesis of Ordered/Disordered Hybrid Carbon Anodes: High-Rate Performance of Li-Ion Batteries
超快双冲击化学合成有序/无序混合碳负极
ACS Nano, 2024
通讯作者: Xinxi Zhang(张新喜,中国矿业大学),Rongtao Zhu(朱荣涛,中国矿业大学),Yanan Chen(陈亚楠,天津大学)
7. (182)Rapid Joule heating-induced welding of silicon and graphene for enhanced lithium-ion battery anodes
焦耳加热诱导硅与石墨烯快速焊接用于增强锂离子电池负极性能
Chemical Engineering Journal, 2024
通讯作者: Fan Yang, Qingxia Liu, Zeguo Tang(深圳技术大学)
8. (203)Fast synthesis of high-entropy oxides for lithium-ion storage
用于锂离子存储的高熵氧化物的快速合成
Chemical Engineering Journal, 2024
通讯作者: Guoyin Zhu(南京信息工程大学)、Kuibo Yin(东南大学)、Shengyang Dong(南京信息工程大学)
9. (215)Enhanced Graphitization of CO2-Derived Carbon Anodes via Joule Heating Reformation for High-Performance Lithium-Ion Batteries
通过焦耳加热重整增强CO2衍生碳负极的石墨化用于高性能锂离子电池
Carbon, 2024
通讯作者: Dihua Wang(王迪华)、Kaifa Du(杜开法)、Wenmiao Li(李文淼)(武汉大学)
10. (225)Ultrafast Carbothermal Shock Synthesis of Wadsley–Roth Phase Niobium-Based Oxides for Fast-Charging Lithium-Ion Batteries
用于快充锂离子电池的Wadsley–Roth相铌基氧化物的超快碳热冲击合成
Advanced Functional Materials, 2024
通讯作者: Jinbao Zhao, Yang Yang(厦门大学)
11. (229)Interface Welding via Thermal Pulse Sintering to Enable 4.6 V Solid-State Batteries
通过热脉冲烧结实现界面焊接以构建4.6V固态电池
Advanced Energy Materials, 2024
通讯作者: Luyi Yang(北京大学深圳研究生院)、Xueliang Sun(加拿大西安大略大学)
12. (264)Synergistic surface restructuring and cation mixing via ultrafast Joule heating enhancing ultrahigh-nickel cathodes for advanced lithium-ion batteries
通过超快焦耳加热实现协同表面重构和阳离子混合以增强先进锂离子电池用超高镍正极
Journal of Energy Chemistry, 2024
通讯作者: Jinyang Dong, Yuefeng Su, Lai Chen(北京理工大学)
13. (272)Porous silicon/carbon composites fabricated via microwave-assisted carbothermal shock for lithium-ion batteries
通过微波辅助碳热冲击制备多孔硅/碳复合材料用于锂离子电池
Journal of Energy Storage, 2025
通讯作者: Kap-Seung Yang(Deca Material Inc.), Min-Sik Park(Kyung Hee University)
14. (303)Ultrafast Sintering for Ceramic-Based All-Solid-State Lithium-Metal Batteries
用于陶瓷基全固态锂金属电池的超快烧结技术
Advanced Materials, 2022, Volume 34, Page 2200430
通讯作者: Wei Liu(上海科技大学)
15. (309)Graphitized Layers Encapsulated Carbon Nanofibers as Li-Free Anode for Hybrid Li-Ion/Metal Batteries
石墨化层包覆碳纳米纤维作为混合锂离子/金属电池的无锂负极
Small, 2025, 2412457
通讯作者: Fenqiang Luo(厦门大学)、Dechao Wang(厦门大学)、Lei Tao(弗吉尼亚理工大学)、Zhifeng Zheng(厦门大学)
16. (313)Scalable copper current collectors with precisely engineered lithiophilic alloy ‘‘skins’’ for durable lithium-metal batteries
具有精确设计的亲锂合金“皮肤”的可扩展铜集流体用于耐用锂金属电池
Energy & Environmental Science, 2025
通讯作者: Yu Gu (厦门大学)、Jiajia Han (厦门大学)、Li Zhang (厦门大学)
17. (325)Tailoring Sodium Carboxymethylcellulose Binders for High-Voltage LiCoO₂ via Thermal Pulse Sintering
通过热脉冲烧结定制用于高压LiCoO₂的羧甲基纤维素钠粘结剂
Angewandte Chemie International Edition, 2025, e202423796
通讯作者: Zu-Wei Yin(厦门大学)、Luyi Yang(北京大学深圳研究生院)、Feng Pan(北京大学深圳研究生院)
18. (333)High Temperature Shock (HTS) Synthesis of Carbon Based Nanomaterials for Electrochemical Applications
高温冲击(HTS)合成碳基纳米材料及其电化学应用
Carbon Neutralization, 2025, Volume 4, Issue 1, Pages 1-26
通讯作者: He Zhu(南京理工大学)、Yu Shao(南京理工大学)、Si Lan(南京理工大学)
19. (365)Interfacial Chemistry and Lithiophilicity Design for High Energy Hybrid Li-Ion/Metal Batteries in a Wide Temperature Range
面向宽温域高能量混合锂离子/金属电池的界面化学与亲锂性设计
Advanced Functional Materials, 2025, Page 2500212
通讯作者: Lizhe Liang(广西大学)、Zhifeng Zheng(厦门大学)
20. (379)Dual functional surface of MXene anode boosts long cyclability of lithium-metal batteries
MXene阳极的双功能表面提升锂金属电池的长循环性能
Journal of Materials Chemistry A, 2025
通讯作者: Mihye Wu(韩国化学技术研究院/忠南国立大学)、Hee-Tae Jung(韩国科学技术院)
21. (432)A novel rock-salt structure high-entropy oxide Fe₀.₂Co₀.₂Ni₀.₂Cu₀.₂Zn₀.₂O as a highly reversible lithium storage material
一种新型岩盐结构高熵氧化物Fe₀.₂Co₀.₂Ni₀.₂Cu₀.₂Zn₀.₂O作为高可逆锂存储材料
Nano Research, 2025, Volume 18, Page 94907784
通讯作者: Hao Wang(南昆士兰大学)、Yifei Yuan(温州大学)
22. (44)Ordered-Range Tuning of Flash Graphene for Fast-Charging Lithium-Ion Batteries
用于快充锂离子电池的闪蒸石墨烯有序范围调控
ACS Applied Nano Materials, 2023
通讯作者: Hao Wu, Weiqiao Deng(山东大学)
23. (51)A comparison of the electrochemical performance of graphitized coal prepared by high-temperature heating and flash Joule heating as an anode material for lithium and potassium ion batteries
高温加热与闪速焦耳加热法制备石墨化煤作为锂离子和钾离子电池负极材料的电化学性能比较
Chemical Physics Letters, 2023
通讯作者: A.M.A. Mohamed 和 Dianxue Cao(哈尔滨工程大学)