非铂基催化剂焦耳热学术论文汇总

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1. (101)Ultrafast self-heating synthesis of robust heterogeneous nanocarbides for high current density hydrogen evolution reaction
用于高电流密度析氢反应的稳健异质纳米碳化物的超快自热合成
Nature Communications, 2022
通讯作者: Yinghui Sun(北京科技大学)、Jia Li(清华大学深圳国际研究生院)、Kai Liu(清华大学)
2. (134)Rapid Atomic Ordering Transformation toward Intermetallic Nanoparticles
快速原子有序化转变制备金属间化合物纳米颗粒
Nano Letters, 2022
通讯作者: Liangbing Hu(马里兰大学)
3. (136)Ta–TiOₓ nanoparticles as radical scavengers to improve the durability of Fe–N–C oxygen reduction catalysts
Ta–TiOₓ纳米颗粒作为自由基清除剂提升Fe–N–C氧还原催化剂的耐久性
Nature Energy, 2022
通讯作者: Guoxiang Hu(纽约市立大学皇后学院)、Reza Shahbazian-Yassar(伊利诺伊大学芝加哥分校)、Yuyan Shao(太平洋西北国家实验室)、Liangbing Hu(马里兰大学)
4. (145)Ultrafast nanomanufacturing via high-temperature shock of La₀.₆Sr₀.₄CoO₃ catalysts for overall water splitting
通过高温冲击超快纳米制造La₀.₆Sr₀.₄CoO₃催化剂用于全水分解
Journal of Materials Science & Technology, 2024
通讯作者: Yanan Chen(天津大学);Cairong Gong(天津大学);Gang Xue(河北工业大学)
5. (147)High temperature shock synthesis of superfine Ru nanoparticles anchored on TiO₂@nitrogen-doped carbon for pH-universal hydrogen evolution reaction
高温冲击合成锚定在氮掺杂碳包覆二氧化钛上的超细钌纳米颗粒用于pH普适性析氢反应
Journal of Alloys and Compounds, 2023
通讯作者: Lingbo Zong(青岛科技大学), Zumin Wang(中国科学院过程工程研究所), Lei Wang(青岛科技大学)
6. (152)Ultrafast synthesis of amorphous molybdenum sulfide by magnetic induction heating for hydrogen evolution reaction
通过磁感应加热超快速合成非晶态硫化钼用于析氢反应
Applied Catalysis B: Environmental, 2024
通讯作者: Qingfeng Ge(Southern Illinois University)和 Shaowei Chen(University of California, Santa Cruz)
7. (156)Ultrafast Joule heating-induced formation of amorphous CoFeNi phosphate for efficient and stable oxygen evolution reaction
超快焦耳加热诱导形成非晶CoFeNi磷酸盐用于高效稳定的析氧反应
J. Mater. Chem. A, 2024
通讯作者: Kwan W. Tan(南洋理工大学)
8. (165)Ultrafast Electrical Pulse Synthesis of Highly Active Electrocatalysts for Beyond-Industrial-Level Hydrogen Gas Batteries
超快电脉冲合成高活性电催化剂用于超越工业水平的氢气体电池
Advanced Materials, 2023
通讯作者: Wei Chen(中国科学技术大学)
9. (188)Joule heating synthesis for single-atomic Fe sites on porous carbon spheres and armchair-type edge defect engineering dominated oxygen reduction reaction performance
焦耳加热合成多孔碳球上的单原子铁位点及扶手椅型边缘缺陷工程主导的氧还原反应性能
Applied Catalysis B: Environment and Energy, 2025
通讯作者: Lingbo Zong, Lei Wang(青岛科技大学)
10. (193)Supersaturated Doping-Induced Maximized Metal−Support Interaction for Highly Active and Durable Oxygen Evolution
超饱和掺杂诱导的最大化金属-载体相互作用用于高活性和耐久性析氧反应
ACS Nano, 2024
通讯作者: Bao Yu Xia, Yonggang Yao(华中科技大学)
11. (197)Engineering heterostructured Mo₂C/MoS₂ catalyst with hydrophilicity/aerophobicity via carbothermal shock for efficient alkaline hydrogen evolution
通过碳热冲击法制备具有亲水/疏气性的异质结构Mo₂C/MoS₂催化剂用于高效碱性析氢反应
Chem. Commun., 2024
通讯作者: Fei Xu(西北工业大学)
12. (202)In Situ, Rapid Synthesis of Carbon-Loaded High Density and Ultrasmall High Entropy Oxide Nanoparticles as Efficient Electrocatalysts
原位快速合成碳载高密度超小高熵氧化物纳米颗粒作为高效电催化剂
Small, 2024
通讯作者: Hongdong Li, Lei Wang(青岛科技大学)
13. (213)Interstitial Oxygen Acts as Electronic Buffer Stabilizing High-Entropy Alloys for Trifunctional Electrocatalysis
间隙氧作为电子缓冲稳定高熵合金用于三功能电催化
Advanced Materials, 2024
通讯作者: Songsong Zhi(河南师范大学)、Hong Guo(云南大学)
14. (236)Axial oxygen-bridged FeN₄O/NC produced by ultrafast joule heating for efficient oxygen reduction reaction
通过超快焦耳热法制备轴向氧桥联FeN₄O/NC用于高效氧还原反应
Chem. Commun., 2024
通讯作者: Chunxian Guo(苏州科技大学)、Chuangang Hu(北京化工大学)
15. (243)Comparative Transmission Electron Microscopy Study of ZnO Nanowire Growth by a Vapor−Solid Method and by Thermal Oxidation during Joule Heating
通过气相-固相法和焦耳加热热氧化法生长ZnO纳米线的比较透射电子显微镜研究
Crystal Growth & Design, 2024
通讯作者: Janghyun Jo, Paloma Fernández Sánchez(马德里康普顿斯大学)
16. (246)Metal-organic framework derived Co@N/C with enhanced oxygen reduction reaction in direct borohydride fuel cells
金属有机框架衍生的Co@N/C在直接硼氢化物燃料电池中增强氧还原反应性能
Chemical Engineering Science, 2025
通讯作者: Haiying Qin(杭州电子科技大学)
17. (250)Using CrN Moiety to Weaken the Dissociation Barrier of Hydroxyl on Adjacent Single Iron Atom for Efficient Oxygen Reduction
利用CrN基团削弱相邻单铁原子上的羟基解离能垒以实现高效氧还原
Energy Storage Materials, 2024
通讯作者: Hong Guo, Anran Chen(云南大学)
18. (251)Ultrafast joule-heating-assisted O, N dual-doping of unfunctionalized carbon enhances Ru nanoparticle-catalyzed hydrogen production
超快焦耳加热辅助非功能化碳的O、N双掺杂增强钌纳米颗粒催化产氢
Journal of Colloid and Interface Science, 2024
通讯作者: Qianggen Li, Guangyin Fan(四川师范大学)
19. (253)Joule-Heated Interfacial Catalysis for Advanced Electrified Esterification with High Conversion and Energy Efficiency
焦耳热界面催化用于高转化率和能量效率的先进电催化酯化反应
Advanced Materials, 2024
通讯作者: Huajie Yin(中国科学院合肥物质科学研究院)、Huijun Zhao(格里菲斯大学)
20. (258)Optimizing Local Configuration of Interphase Copper Oxide by Ru Atoms Incorporation for High-Efficient Nitrate Reduction to Ammonia
通过掺入Ru原子优化界面氧化铜的局域构型以实现高效硝酸盐还原制氨
Advanced Functional Materials, 2024
通讯作者: Chuanqiang Wu(安徽大学)、Li Yang, Li Song(中国科学技术大学)
21. (275)Directed Electron Modulation Stabilizes Iridium Oxide Clusters for High-Current-Density Oxygen Evolution
定向电子调制稳定氧化铱团簇用于高电流密度析氧反应
Advanced Functional Materials, 2024
通讯作者: Xibo Li(暨南大学), Kai Huang(北京邮电大学), Hui Wu(清华大学)
22. (276)Enriching Unsaturated Coordination for High-Performance Chromium Oxide Catalysts
富集不饱和配位用于高性能氧化铬催化剂
Chemistry of Materials, 2024
通讯作者: Qiang Li(北京科技大学)
23. (291)Ru-doped Bi₂O₃ with rich oxygen vacancy for enhanced photocatalytic nitrogen reduction
富含氧空位的钌掺杂三氧化二铋用于增强光催化氮还原性能
Journal of Alloys and Compounds, 2025
通讯作者: Xiangchao Meng(中国海洋大学)、Guangming Ren(青岛科技大学)
24. (293)Multi-orbital electronic coupling mediated by integrating multiple-metal hybridizations at ultrafast heating accumulation for efficient electrochemical urea synthesis
超快热积累下多金属杂化介导的多轨道电子耦合用于高效电化学尿素合成
Journal of Energy Chemistry, 2024
通讯作者: Peifang Wang(河海大学)、Lizhe Liu(南京大学)、Gang Zhou(河海大学)
25. (302)Ultrafast Joule Heating Processing of Lunar Soil Minerals for Water Electrolysis
月壤矿物的超快焦耳加热处理用于水电解
ACS Materials Letters, 2025, Volume 7, Pages 553-559
通讯作者: Ran Long(中国科学技术大学)、Yujie Xiong(中国科学技术大学)
26. (314)Rapid synthesis of phase-engineered tungsten carbide electrocatalysts via flash joule heating for high-current-density hydrogen evolution
通过闪速焦耳加热快速合成相工程碳化钨电催化剂用于高电流密度析氢反应
International Journal of Hydrogen Energy, 2025, Volume 106, Pages 973–979
通讯作者: Majid Minary-Jolandan (The University of Texas at Dallas)、Guoping Xiong (The University of Texas at Dallas)
27. (316)Micro- and Nanocrystalline NiO Synthesized by Joule Heating and Thermal Oxidation Methods: A Comparative Study
焦耳加热与热氧化法制备微米和纳米晶NiO的比较研究
Crystal Growth & Design, 2025
通讯作者: G. Cristian Vásquez(Universidad Complutense de Madrid)
28. (323)Flash graphene from carbon fiber composites: A sustainable and high-performance electrocatalyst for hydrogen peroxide production
碳纤维复合材料闪蒸石墨烯
Electrochimica Acta, 2025, Volume 517, Page 145754
通讯作者: Boštjan Genorio(斯洛文尼亚卢布尔雅那大学)
29. (334)Activating inert non-defect sites in Bi catalysts using tensile strain engineering for highly active CO₂ electroreduction
利用拉伸应变工程激活铋催化剂中的惰性非缺陷位点实现高活性CO₂电还原
Nature Communications, 2025, Volume 16, Page 1927
通讯作者: Wen Luo(武汉理工大学)、Jiexin Zhu(武汉理工大学)、Ziyun Wang(奥克兰大学)、Liqiang Mai(武汉理工大学)
30. (336)Cobalt-Doped Ru@RuO₂ Core−Shell Heterostructure for Efficient Acidic Water Oxidation in Low-Ru-Loading Proton Exchange Membrane Water Electrolyzers
钴掺杂Ru@RuO₂核壳异质结构用于低钌负载质子交换膜水电解槽中的高效酸性水氧化
Journal of the American Chemical Society, 2025
通讯作者: Ting Huang(中国科学技术大学)、Liang Zhang(苏州大学)、Wei Chen(中国科学技术大学)
31. (338)Joule-Heating-Driven Encapsulation of FeCo Nanoparticles in Ion-Selective Carbon Shell for Stable Seawater Electrolysis
焦耳热驱动FeCo纳米颗粒封装于离子选择性碳壳用于稳定海水电解
ChemSusChem, 2025, e202402710
通讯作者: Zhi Xu(华东理工大学)、Linzhou Zhuang(华东理工大学)
32. (347)Transient pulsed discharge preparation of graphene aerogel supports asymmetric Cu cluster catalysts promote CO₂ electroreduction
瞬态脉冲放电制备石墨烯气凝胶负载不对称铜团簇催化剂促进CO₂电还原
Nature Communications, 2025, Volume 16, Page 1203
通讯作者: Zhongti Sun(江苏大学)、Wenxing Chen(北京理工大学)、Xin Gao(北京理工大学)、Pengwan Chen(北京理工大学)
33. (352)Heterogeneous interface and vacancy engineering contribute to metastable catalysts for overall water splitting
异质界面与空位工程助力亚稳态催化剂实现高效全水分解
Acta Materialia, 2025, Volume 289, Page 120934
通讯作者: Chun Cheng Yang(吉林大学)、Qing Jiang(吉林大学)
34. (353)Ultrafast Carbothermal Shock Synthesis of Intermetallic Silicides with Anion-Cation Double Active Sites for Efficient Hydrogen Evolution
具有阴-阳离子双活性中心的金属硅化物的超快碳热冲击合成及其高效析氢反应性能
Small, 2025, Page 2412528
通讯作者: Zonghua Pu(福建师范大学)、Shengyun Huang(中国科学院赣江创新研究院)、Shichun Mu(武汉理工大学)
35. (358)Modulation of Hydrogen Desorption Capability of Ruthenium Nanoparticles via Electronic Metal-Support Interactions for Enhanced Hydrogen Production in Alkaline Seawater
通过电子金属-载体相互作用调控钌纳米颗粒的氢解吸能力以增强碱性海水中的产氢性能
Small, 2025, Page 2411975
通讯作者: Xiaoyan Zhang(青岛大学)、Junfeng Chen(福州大学)、Lixue Zhang(青岛大学)
36. (359)Enhanced hydrogen evolution ability of Ru with regulation of interface electronic structure by WC/W₂C heterostructure via ultrafast flash joule heating synthesis
通过超快闪焦耳加热合成WC/W₂C异质结构调控界面电子结构增强Ru的析氢能力
Applied Surface Science, 2025, Volume 697, Page 163015
通讯作者: Fulai Qi(西安工业大学)、Hongge Pan(西安工业大学)
37. (362)Multi-Component Intermetallic Nanocrystals: a Promising Frontier in Advanced Electrocatalysis
多组分金属间化合物纳米晶
Small, 2025, 2500306
通讯作者: Mingjin Cui(上海理工大学)、Xinghui Liu(湖北航天化学技术研究所)、Shixue Dou(上海理工大学/南京大学)
38. (363)A Triatomic Cobalt Catalyst for Oxygen Electrocatalysis
用于氧电催化的三原子钴催化剂
Angewandte Chemie International Edition, 2025, e202503019
通讯作者: Jingqi Guan(吉林大学)
39. (368)Joule heating of CuO-ZnO/Ni foam catalyst for high H₂ production and energy-saving of methanol decomposition: From the performance to mechanism
焦耳加热CuO-ZnO/Ni泡沫催化剂用于高效产氢和节能的甲醇分解
Chemical Engineering Journal, 2025, Page 162325
通讯作者: Limo He(华中科技大学)
40. (373)Vacancy and Dopant Co-Constructed Active Microregion in Ru–MoO₃₋ₓ/Mo₂AlB₂ for Enhanced Acidic Hydrogen Evolution
空位与掺杂剂共构建Ru–MoO₃₋ₓ/Mo₂AlB₂中的活性微区用于增强酸性析氢反应
Angewandte Chemie International Edition, 2025, e202504084
通讯作者: Binbin Jia(中国三峡大学)、Zhonglu Guo(河北工业大学)、Xiaoyu Fan(首都师范大学)、Jinlong Zheng(北京科技大学)
41. (374)Joule Heating-Driven sp²-C Domains Modulation in Biomass Carbon for High-Performance Bifunctional Oxygen Electrocatalysis
焦耳加热驱动的生物质碳中sp²-C域调控用于高性能双功能氧电催化
Nano-Micro Letters, 2025, Volume 17, Page 221
通讯作者: Liang Wang(上海大学)、Mengmeng Fan(南京林业大学)
42. (391)Engineering Twins within Lattice-Matched Co/CoO Heterostructure Enables Efficient Hydrogen Evolution Reactions
晶格匹配的Co/CoO异质结构中孪晶工程实现高效析氢反应
Nano Letters, 2025
通讯作者: Yaotian Yan(哈尔滨工业大学)、Shude Liu(东华大学)、Ling Kang(延世大学)、Junlei Qi(哈尔滨工业大学)
43. (408)Fast Joule Heating Preparation and Performance Study of Carbon-Loaded Nano Tungsten-Based Electrocatalysts for Highly Efficient Oxygen Evolution Reaction
用于高效析氧反应的碳载纳米钨基电催化剂的快速焦耳热制备与性能研究
ACS Applied Energy Materials, 2025
通讯作者: Lili Guan(内蒙古科技大学)
44. (409)Flash Joule Heating Synthesis of Nitrogen-Rich Defective G-C₃N₄ for Highly Efficient Photocatalytic Hydrogen Evolution
闪速焦耳加热合成富氮缺陷石墨相氮化碳用于高效光催化析氢
Small, 2025, Page 2503335
通讯作者: Yun Chen(广东工业大学)
45. (410)Cobalt-Doped Ru@RuO₂ Core–Shell Heterostructure for Efficient Acidic Water Oxidation in Low-Ru-Loading Proton Exchange Membrane Water Electrolyzers
钴掺杂Ru@RuO₂核壳异质结构用于低钌负载质子交换膜水电解槽中的高效酸性水氧化
Journal of the American Chemical Society, 2025, Volume 147, Pages 8720–8731
通讯作者: Ting Huang(中国科学技术大学)、Liang Zhang(苏州大学)、Wei Chen(中国科学技术大学)
46. (411)Ultrafast carbothermal shock synthesis of transition metal phosphides in air for highly efficient hydrogen evolution reaction
空气中超快碳热冲击合成过渡金属磷化物用于高效析氢反应
Chinese Chemical Letters, 2025
通讯作者: Shengyun Huang(中国科学院赣江创新研究院)、Zonghua Pu(福建师范大学)
47. (422)Enhanced Tri-Atom Ru-Based Catalyst for Hydrogen Evolution Reaction via Rapid Pyrolysis of Precursor
通过前驱体快速热解策略增强三原子钌基催化剂用于析氢反应
Advanced Functional Materials, 2025, Page 2503678
通讯作者: Yi Yao(中国科学技术大学)、Ziyun Wang(奥克兰大学)、Shubo Tian(北京化工大学)
48. (423)Continuous Joule Heating for Scalable and General Fusion Ternary Metal Oxides with Triple-Active Fenton-Like Activity
连续焦耳加热用于可扩展和通用的三元金属氧化物融合及其三重活性类Fenton催化性能
Engineering, 2025
通讯作者: Fengbo Yu(中国科学院南京土壤研究所)、Yujun Wang(中国科学院南京土壤研究所)
49. (426)Joule-heated PdFe alloys with phase-dependent electronic structures for high-efficiency oxygen reduction
焦耳加热法制备具有相依赖电子结构的高效氧还原PdFe合金
International Journal of Hydrogen Energy, 2025, Volume 148, Page 149770
通讯作者: Danyang Wu(大连海事大学)、Baojiu Chen(大连海事大学)
50. (433)Joule-Heating-Synthesized Iodine−Nitrogen Metal-Free Nanofiber for H₂O₂ Electroproduction via a Coordination Microenvironment Regulation Strategy
通过配位微环境调控策略焦耳加热合成碘-氮无金属纳米纤维用于电催化生产过氧化氢
Nano Letters, 2025
通讯作者: Tianyi Han(清华大学)、Dongjian Shi(江南大学)、Mingliang Du(江南大学)
51. (438)High-entropy alloyed single-atom Pt for methanol oxidation electrocatalysis
用于甲醇氧化电催化的高熵合金化单原子铂催化剂
Nature Communications, 2025, Volume 16, Page 6359
通讯作者: Jia Li(清华大学深圳国际研究生院)、Kai Liu(清华大学)
52. (46)Co-Cl-C composited films prepared by flash Joule heating system as an efficient electrocatalyst for the oxygen and hydrogen evolution reaction
通过闪速焦耳加热系统制备的Co-Cl-C复合膜作为高效的电催化剂用于析氧和析氢反应
Chemical Physics Letters, 2023
通讯作者: Xiangdong Meng (孟祥东) 和 Yumei Zhang (张玉梅)(吉林师范大学)
53. (48)Flash joule heating synthesis of carbon supported ultrafine metallic heterostructures for high-performance overall water splitting
用于高性能全水分解的碳载超细金属异质结构的闪速焦耳加热合成
Journal of Alloys and Compounds, 2023
通讯作者: Kaicai Fan、Lingbo Zong(青岛科技大学)
54. (50)Hybrid electrocatalyst Ag/Co/C via flash Joule heating for oxygen reduction reaction in alkaline media
通过闪速焦耳加热制备Ag/Co/C杂化电催化剂用于碱性介质中的氧还原反应
Chemical Engineering Journal, 2022
通讯作者: Shi Hu(胡石,天津大学)
55. (72)Rapid self-heating synthesis of Fe-based nanomaterial catalyst for advanced oxidation
快速自热合成铁基纳米材料催化剂用于高级氧化
Nature Communications, 2023
通讯作者: Shaobin Wang(阿德莱德大学)和 Xiangdong Zhu(复旦大学)
56. (82)Transient co-tuning of atomic Fe and nanoparticle facets for self-relaying Fenton-like catalysis
原子铁和纳米颗粒晶面的瞬态共调控用于自接力类芬顿催化
Communications Materials, 2024
通讯作者: Xiangdong Zhu(复旦大学)、Xiaoli Zhao(广东省科学院生态环境与土壤研究所/中国环境科学研究院)、Fengchang Wu(广东省科学院生态环境与土壤研究所/中国环境科学研究院)
57. (87)Rapid synthesis of efficient Mo-based electrocatalyst for the hydrogen evolution reaction in alkaline seawater with 11.28% solar-to-hydrogen efficiency
快速合成高效钼基电催化剂用于碱性海水析氢反应并实现11.28%的太阳能-氢能转换效率
Journal of Materials Chemistry A, 2023
通讯作者: Xiangchao Meng(中国海洋大学)