陶瓷材料焦耳热学术论文汇总

汇总焦耳热文献,支持焦耳热技术发展

联系电话:15810037587,吕经理

1. (118)Printable, high-performance solid-state electrolyte films
可打印的高性能固态电解质薄膜
Science Advances, 2020
通讯作者: Liangbing Hu(马里兰大学)
2. (119)Ultrafast Sintering of Solid-State Electrolytes with Volatile Fillers
含挥发性填料的固态电解质的超快烧结
ACS Energy Letters, 2021
通讯作者: Liangbing Hu(马里兰大学)
3. (123)High-Temperature Ultrafast Sintering: Exploiting a New Kinetic Region to Fabricate Porous Solid-State Electrolyte Scaffolds
高温超快烧结
Advanced Materials, 2021
通讯作者: Liangbing Hu(马里兰大学)
4. (127)Tailoring grain growth and densification toward a high-performance solid-state electrolyte membrane
调控晶粒生长和致密化以实现高性能固态电解质膜
Materials Today, 2021
通讯作者: Liangbing Hu(马里兰大学)
5. (133)Ultrafast high-temperature sintering to avoid metal loss toward high-performance and scalable cermets
超快速高温烧结避免金属损失以实现高性能和可扩展金属陶瓷
Matter, 2022
通讯作者: Ji-Cheng Zhao(美国马里兰大学),Liangbing Hu(美国马里兰大学)
6. (138)Rapid liquid phase–assisted ultrahigh-temperature sintering of high-entropy ceramic composites
快速液相辅助超高温烧结高熵陶瓷复合材料
Science Advances, 2022
通讯作者: Jian Luo(University of California San Diego);Liangbing Hu(University of Maryland)
7. (139)Rapid Pressureless Sintering of Glasses
玻璃的快速无压烧结
Small, 2022
通讯作者: Liangbing Hu(马里兰大学)
8. (154)Li7La3Zr2O12 solid electrolyte sintered by the ultrafast high-temperature method
超快高温烧结法制备Li7La3Zr2O12固体电解质
Journal of the European Ceramic Society, 2021
通讯作者: Martin Ihrig, Martin Finsterbusch(Forschungszentrum Jülich GmbH)
9. (164)Ultrastrong and High Thermal Insulating Porous High-Entropy Ceramics up to 2000 °C
超强高隔热多孔高熵陶瓷及其在2000°C下的性能
Advanced Materials, 2024
通讯作者: Lei Zhuang(庄磊)和 Yanhui Chu(褚衍辉)(华南理工大学)
10. (18)Ultrafast and Controllable Phase Evolution by Flash Joule Heating
通过闪速焦耳加热实现超快可控相演化
ACS Nano, 2021
通讯作者: James M. Tour(Rice University)
11. (205)Core−Shell Engineered Fillers Overcome the Electrical-Thermal Conductance Trade-Off
核壳结构工程填料克服电导-热导权衡
ACS Nano, 2024
通讯作者: Haichang Guo, Lei Liu(北京大学)
12. (209)Ultrastrong and High Thermal Insulating Porous High-Entropy Ceramics up to 2000 °C
超强高隔热多孔高熵陶瓷及其在2000°C下的性能
Advanced Materials, 2024
通讯作者: Lei Zhuang(庄磊)、Yanhui Chu(褚衍辉)(华南理工大学)
13. (237)Ultrafast pressure sintering of B₄C-based composites via direct Joule heating
基于直接焦耳加热的B₄C基复合材料超快速压力烧结
Journal of Materials Science & Technology, 2025
通讯作者: Rui-Fen Guo, Ping Shen(吉林大学)
14. (24)High-surface-area corundum nanoparticles by resistive hotspot-induced phase transformation
通过电阻热点诱导相变制备高比表面积刚玉纳米颗粒
Nature Communications, 2022
通讯作者: Yufeng Zhao(Corban University)、James M. Tour(Rice University)
15. (242)Programmable and rapid fabrication of complex-shape ceramics
可编程快速制造复杂形状陶瓷
Nature Communications, 2024
通讯作者: Zhengbao Yang(香港科技大学)
16. (249)Ultrafast pressure sintering: A one-step route to dense high-entropy carbide from precursors
超快速压力烧结
Journal of the European Ceramic Society, 2025
通讯作者: Ping Shen(沈平,吉林大学)
17. (25)Kinetically Controlled Synthesis of Metallic Glass Nanoparticles with Expanded Composition Space
动力学控制合成具有扩展成分空间的金属玻璃纳米颗粒
Advanced Materials, 2024
通讯作者: James M. Tour(Rice University)、Yufeng Zhao(Corban University)
18. (254)Ultrafast high-temperature sintering of aluminum nitride
氮化铝的超快速高温烧结
Journal of the European Ceramic Society, 2025
通讯作者: Jaehun Cho(韩国金乌国立技术大学)
19. (26)Phase controlled synthesis of transition metal carbide nanoc crystals by ultrafast flash Joule heating
通过超快闪速焦耳加热实现过渡金属碳化物纳米晶的相控合成
Nature Communications, 2022
通讯作者: Yufeng Zhao(Corban University)、James M. Tour(Rice University)
20. (271)Ultrafast Sintering of Dense Li₇La₃Zr₂O₁₂ Membranes for Li Metal All-Solid-State Batteries
用于锂金属全固态电池的致密Li₇La₃Zr₂O₁₂隔膜的超快烧结
Advanced Science, 2024
通讯作者: Kostiantyn V. Kravchyk(Empa), Maksym V. Kovalenko(ETH Zürich)
21. (318)An integrated optimization strategy by Joule heating technique enabling rapid fabrication of robust Li₁.₃Al₀.₃Ti₁.₇(PO₄)₃ solid-state electrolyte for all-solid-state lithium metal batteries
基于焦耳加热技术的集成优化策略实现快速制备高性能Li₁.₃Al₀.₃Ti₁.₇(PO₄)₃固态电解质用于全固态锂金属电池
Journal of Colloid and Interface Science, 2025, Volume 686, Pages 660–671
通讯作者: Jianan Wang (西安交通大学)
22. (322)Abnormal absorption of novel high-entropy diborides regulated by electromagnetic balance of magnetic elements
磁性元素电磁平衡调控的新型高熵二硼化物的异常吸收性能
Materials Today Communications, 2025, Volume 43, Page 111670
通讯作者: Qingyun Chen(桂林理工大学)、Chencheng Liu(中国科学院宁波材料技术与工程研究所)、Yuezhong Wang(中国科学院宁波材料技术与工程研究所)
23. (381)Joule heating enables ultra-fast SiC ceramics joining in seconds
焦耳加热实现秒级超快SiC陶瓷连接
Scripta Materialia, 2025, Volume 264, Page 116721
通讯作者: Xiaobing Zhou(中国科学院宁波材料技术与工程研究所)、Qing Huang(中国科学院宁波材料技术与工程研究所)
24. (399)Metallic Glass Nanoparticles Synthesized via Flash Joule Heating
通过闪速焦耳加热合成金属玻璃纳米颗粒
ACS Nano, 2025
通讯作者: André D. Taylor(纽约大学)
25. (49)Accessing the role of Joule heating on densification during flash sintering of YSZ
探究焦耳热在YSZ闪烧致密化过程中的作用
Scripta Materialia, 2022
通讯作者: Tarini Prasad Mishra(于利希研究中心)、Devinder Yadav(印度理工学院帕特纳分校)
26. (68)Modelling the particle contact influence on the Joule heating and temperature distribution during FLASH sintering
闪烧过程中颗粒接触对焦耳热及温度分布影响的建模研究
Journal of the European Ceramic Society, 2020
通讯作者: Paula M. Vilarinho(University of Aveiro, Portugal)和 Julian S. Dean(University of Sheffield, UK)
27. (83)Flash Joule heating for ductilization of metallic glasses
闪速焦耳加热用于金属玻璃的韧化
Nature Communications, 2015
通讯作者: I.V. Okulov(德累斯顿工业大学,IFW Dresden)
28. (85)A general method to synthesize and sinter bulk ceramics in seconds
一种在几秒钟内合成和烧结块体陶瓷的通用方法
Science, 2020
通讯作者: Liangbing Hu(University of Maryland),Yifei Mo(University of Maryland),Xiaoyu (Rayne) Zheng(Virginia Tech),Jian Luo(University of California San Diego)