高熵催化剂焦耳热学术论文汇总

(氧化物、纳米颗粒、纳米线)

联系电话:15810037587,吕经理

1. (121)Carbon-Supported High-Entropy Oxide Nanoparticles as Stable Electrocatalysts for Oxygen Reduction Reactions
碳载高熵氧化物纳米颗粒作为稳定的氧还原反应电催化剂
Advanced Functional Materials, 2021
通讯作者: Reza Shahbazian-Yassar(伊利诺伊大学芝加哥分校),Feng Jiao(特拉华大学),Liangbing Hu(马里兰大学)
2. (149)Ultrafast self-assembly Fe₂O₃ nanoparticles confined in carbon layers toward robust heterogeneous electro-Fenton reaction
碳层限域超快自组装Fe₂O₃纳米颗粒用于稳健非均相电芬顿反应
Electrochimica Acta, 2022
通讯作者: Can Wang, Yanan Chen(天津大学)
3. (178)Ultrafast Synthesis of Transition Metal Phosphides in Air via Pulsed Laser Shock
空气中脉冲激光冲击超快合成过渡金属磷化物
Nano Letters, 2024
通讯作者: Xiao Han(西北工业大学,香港理工大学)和 Jianhua Hao(香港理工大学)
4. (181)Ni0.25Cu0.5Sn0.25 Nanometallic Glasses As Highly Efficient Catalyst for Electrochemical Nitrate Reduction to Ammonia
Ni0.25Cu0.5Sn0.25 纳米金属玻璃作为高效电化学硝酸盐还原制氨催化剂
Advanced Functional Materials, 2024
通讯作者: Shuyan Gao(河南师范大学)、Zhuofeng Hu(中山大学)、Panagiotis Tsiakaras(色萨利大学)
5. (194)Ultrafast joule-heating synthesis of FeCoMnCuAl high-entropy-alloy nanoparticles as efficient OER electrocatalysts
超快焦耳加热合成FeCoMnCuAl高熵合金纳米颗粒作为高效析氧反应电催化剂
Progress in Natural Science: Materials International, 2024
通讯作者: He Zhu, Si Lan(南京理工大学)、Hua Ji(苏州核电研究院)
6. (221)Highly dispersed face-centered cubic copper-cobalt alloys constructed by ultrafast carbothermal shock for efficient electrocatalytic nitrate-to-ammonia conversion
超快碳热冲击构建高分散面心立方铜钴合金用于高效电催化硝酸盐还原合成氨
Materials Today Energy, 2022
通讯作者: Yang Liu(刘洋,河南师范大学)
7. (240)Carbothermal Shock Synthesis of High Entropy Oxide Catalysts: Dynamic Structural and Chemical Reconstruction Boosting the Catalytic Activity and Stability toward Oxygen Evolution Reaction
高熵氧化物催化剂的碳热冲击合成
Advanced Energy Materials, 2022
通讯作者: Ju Li(麻省理工学院)
8. (252)MoZn-based high entropy alloy catalysts enabled dual activation and stabilization in alkaline oxygen evolution
基于MoZn的高熵合金催化剂实现碱性析氧反应的双重活化和稳定化
Science Advances, 2024
通讯作者: Yuhua Wang(武汉科技大学)、Bao Yu Xia, Yonggang Yao(华中科技大学)
9. (274)Far-From-Equilibrium Processing Opens Kinetic Paths for Engineering Novel Materials by Breaking Thermodynamic Limits
远离平衡态加工通过打破热力学限制开辟工程新材料的动力学路径
ACS Materials Letters, 2025
通讯作者: Song Li(东北大学)
10. (282)Oxygen Vacancy-Mediated High-Entropy Oxide Electrocatalysts for Efficient Oxygen Evolution Reaction
氧空位介导的高熵氧化物电催化剂用于高效析氧反应
Materials Today Catalysis, 2024
通讯作者: Yaotian Yan(哈尔滨工业大学)、Shude Liu(东华大学)、Xiaohang Zheng(哈尔滨工业大学)
11. (283)Plasma induced oxygen vacancies on high entropy oxide surfaces for efficient overall water splitting
等离子体诱导高熵氧化物表面氧空位用于高效全水分解
Journal of Power Sources, 2025, Volume 630, Page 236144
通讯作者: Subrata Kundu(CSIR-Central Electrochemical Research Institute)、Yugeswaran Subramaniam(Pondicherry University)
12. (315)Ultrafast Joule heating method for synthesizing CoNi nanoalloy catalysts for electrocatalytic hydrogen evolution
超快焦耳加热法合成用于电催化析氢反应的CoNi纳米合金催化剂
Journal of Alloys and Compounds, 2025
通讯作者: Bo Yang(贵州师范大学)、Yanqing Hou(昆明理工大学)、Gang Xie(昆明冶金研究院)
13. (350)Surface-Decorated High-Entropy Alloy Catalysts with Significantly Boosted Activity and Stability
表面修饰的高熵合金催化剂显著提升活性和稳定性
Advanced Functional Materials, 2022, Volume 32, Page 2204643
通讯作者: Zhiqiang Liang(苏州大学)、Bingjun Xu(北京大学)、Yonggang Yao(华中科技大学)
14. (360)Integrated High-Entropy Alloy Nanowire/Carbon Nanotube Membrane Electrode for Efficient Hydrogen Evolution in Acid Solution
集成高熵合金纳米线/碳纳米管膜电极用于酸性溶液中高效析氢反应
Advanced Functional Materials, 2025, Page 2425156
通讯作者: Feng Zhang(中国科学院金属研究所)、Xiao Wang(中国科学院深圳先进技术研究院)、Chang Liu(中国科学院金属研究所)
15. (361)Highly efficient decomposition of ammonia using high-entropy alloy catalysts
使用高熵合金催化剂高效分解氨
Nature Communications, 2019, Volume 10, Page 4011
通讯作者: Guofeng Wang(匹兹堡大学)、Reza Shahbazian-Yassar(伊利诺伊大学芝加哥分校)、Liangbing Hu(马里兰大学)、Chao Wang(约翰霍普金斯大学)
16. (370)Finely tailoring the local ensembles in heterostructured high entropy alloy catalysts through pulsed annealing
通过脉冲退火精细调控异质结构高熵合金催化剂中的局域团簇
Nature Communications, 2025, Volume 16, Page 3403
通讯作者: Zhiqiang Liang(苏州大学)、Wang Gao(吉林大学)、Dongshuang Wu(南洋理工大学)、Yonggang Yao(华中科技大学)
17. (385)Upcycling Spent Cathodes from Li−Ion Batteries into a High-Entropy Alloy Catalyst with Reverse Electron Transfer for Li−O₂ Batteries
将废旧锂离子电池正极升级为具有反向电子转移的高熵合金催化剂用于锂氧电池
ACS Nano, 2025
通讯作者: Peng Wang(青岛科技大学)、Zhiming Liu(青岛科技大学)
18. (414)Joule-Heating Synthesis of High-Entropy Oxide Nanoparticles as Sulfion Oxidation Catalysts for Efficient and Durable Hybrid Seawater Electrolysis
焦耳加热合成高熵氧化物纳米颗粒作为硫离子氧化催化剂用于高效耐久的混合海水电解
Advanced Functional Materials, 2025, Page 2506415
通讯作者: Guang-Jie Xia(Great Bay University)、Zuxin Chen(South China Normal University)、Lifeng Liu(Songshan Lake Materials Laboratory)
19. (420)Unlocking the Power of Lewis Basicity in Oxide Lattice Oxygens: A Regulating Force for Enhanced Oxygen Evolution Kinetics in Li-O₂ Batteries
释放氧化物晶格氧中路易斯碱性的力量
Angewandte Chemie International Edition, 2025, e202509132
通讯作者: Kai-Xue Wang(上海交通大学)、Jie-Sheng Chen(上海交通大学)
20. (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)
21. (59)High-entropy nanoparticles: Synthesis-structure-property relationships and data-driven discovery
高熵纳米颗粒
Science, 2022
通讯作者: Liangbing Hu(马里兰大学)
22. (62)Electrodeposition of Pt-Ni nanoparticles on graphene as an electrocatalyst for oxygen reduction reaction
石墨烯上电沉积Pt-Ni纳米颗粒作为氧还原反应电催化剂的研究
Frontiers in Chemistry, 2022
通讯作者: Yong Zhang (zhangyong@sxu.edu.cn), Yawei Li (yaweili@sxu.edu.cn)(山西大学)
23. (71)Preparation of Coal-Based Graphene by Flash Joule Heating
通过闪蒸焦耳热法制备煤基石墨烯
ACS Omega, 2024
通讯作者: Hongchao Luo(六盘水师范学院)
24. (75)Transient synthesis of carbon-supported high-entropy alloy sulfide nanoparticles via flash Joule heating for efficient electrocatalytic hydrogen evolution
通过闪速焦耳加热瞬时合成碳载高熵合金硫化物纳米颗粒用于高效电催化析氢反应
Nano Research, 2023
通讯作者: Rongtao Zhu(中国矿业大学)
25. (94)Rapid Joule-Heating Synthesis for Manufacturing High-Entropy Oxides as Efficient Electrocatalysts
快速焦耳加热合成高熵氧化物作为高效电催化剂
Nano Letters, 2022
通讯作者: Xiaopeng Han(天津大学),Yida Deng(天津大学、海南大学)