单(双)原子催化剂焦耳热学术论文汇总

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1. (220)Ultrafast synthetic strategies under extreme heating conditions toward single-atom catalysts
极端加热条件下超快合成策略制备单原子催化剂
International Journal of Extreme Manufacturing, 2022
通讯作者: Huilong Fei, Shuangyin Wang(湖南大学)
2. (224)Flash-Thermal Shock Synthesis of Single Atoms in Ambient Air
环境空气中单原子的闪热冲击合成
ACS Nano, 2023
通讯作者: Sung-Yool Choi, Il-Doo Kim(Korea Advanced Institute of Science and Technology)
3. (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)
4. (269)Ultrafast Synthesis of IrB₁.₁₅ Nanocrystals for Efficient Chlorine and Hydrogen Evolution Reactions in Saline Water
超快合成IrB₁.₁₅纳米晶体用于盐水中高效氯析出和氢析出反应
Angewandte Chemie International Edition, 2024
通讯作者: Zonghua Pu, Gaixia Zhang, Shuhui Sun(加拿大国家科学研究院)
5. (296)Millisecond activity modulation of atomically-dispersed Fe–N–C catalysts
原子级分散Fe–N–C催化剂的毫秒级活性调控
Energy Storage Materials, 2024, Volume 69, Page 103421
通讯作者: Sheng Zhu(山西大学)
6. (312)All-round enhancement induced by oxophilic single Ru and W atoms for alkaline hydrogen oxidation of tiny Pt nanoparticles
亲氧性单原子Ru和W对微小Pt纳米颗粒碱性氢氧化反应的全方位增强
Nature Communications, 2025, Volume 16, Page 883
通讯作者: Ziyun Wang(奥克兰大学)、Yunhu Han(西北工业大学)
7. (320)High-temperature shock-induced transformation of bulk copper into single-atom catalyst
高温冲击诱导块体铜向单原子催化剂的转化
Nano Research, 2025, Volume 18, Page 94907300
通讯作者: Jian-Feng Li(厦门大学)、FengRu Fan(厦门大学)
8. (327)Designer electron-reservoir single-atom electrocatalyst for efficient carbon dioxide reduction
设计电子库单原子电催化剂用于高效二氧化碳还原
Chemical Engineering Journal, 2025, Volume 507, Page 160387
通讯作者: Qian Wang(北京大学)、Yonggang Wang(北京大学)、Xiao Hai(北京大学)、Ruqiang Zou(北京大学)
9. (329)Ultra-Fast Pulsed Discharge Preparation of Coordinatively Unsaturated Asymmetric Copper Single-Atom Catalysts for CO₂ Reduction
超快脉冲放电法制备配位不饱和不对称铜单原子催化剂用于CO₂还原
Advanced Functional Materials, 2024, Volume 34, Page 2312589
通讯作者: Xiufeng Lang(河北科技师范学院)、Xin Gao(北京理工大学)、Pengwan Chen(北京理工大学)
10. (343)Tailoring asymmetric RuCu dual-atom electrocatalyst toward ammonia synthesis from nitrate
调控不对称RuCu双原子电催化剂用于硝酸盐合成氨
Nature Communications, 2025, Volume 16, Page 2167
通讯作者: Xin Gao(北京理工大学)、Wenxing Chen(北京理工大学)、Pengwan Chen(北京理工大学)
11. (377)Ultrafast Synthesis of Single-Atom Catalysts for Electrocatalytic Applications
用于电催化应用的单原子催化剂超快合成
Small, 2025, 2501917
通讯作者: Yan Gao(蚌埠大学)、Xin Gao(北京理工大学)、Zhengbo Chen(首都师范大学)、Wenxing Chen(北京理工大学)、Pengwan Chen(北京理工大学)
12. (397)Sub-second Synthesis of Graphite Foam Anchored Atomically Dispersed Ni Atoms: Axial Phosphate Coordination for Improved Electrocatalytic Water Oxidation
亚秒级合成石墨泡沫锚定原子分散镍原子
Carbon, 2025
通讯作者: Xiaoxin Lv(江苏大学)、Jun Zhong(苏州大学)、Jiujun Deng(江苏大学)
13. (405)Regulation of Electron Transfer and Microstructure in RuN Single-Atom Catalysts and Their Catalytic Performance for CO/CO₂ Hydrogenation
RuN单原子催化剂中电子转移与微观结构的调控及其对CO/CO₂加氢催化性能的研究
ACS Sustainable Chemistry & Engineering, 2025
通讯作者: Haojie Geng(西南大学)、Jingyu Ran(重庆大学)、Nian Bing Li(西南大学)
14. (421)Modulating Spin State of Ni Single Atomic Center for High-Performance Electrocatalytic Carbon Dioxide Reduction
调控镍单原子中心自旋态实现高性能电催化二氧化碳还原
Angewandte Chemie International Edition, 2025, e202506845
通讯作者: Zhiyuan Wang(郑州大学)、Zhongyi Liu(郑州大学)、Shuang-Quan Zang(郑州大学)
15. (429)A Dual-Atom La₂ Catalyst for the Oxygen Reduction Reaction
用于氧还原反应的双原子La₂催化剂
Angewandte Chemie International Edition, 2025, e202509063
通讯作者: Zhenlu Wang(吉林大学)、Jingqi Guan(吉林大学)、Xiaodi Niu(吉林大学)
16. (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)
17. (57)High temperature shockwave stabilized single atoms
高温冲击波稳定单原子
Nature Nanotechnology, 2019
通讯作者: Tianpin Wu(阿贡国家实验室)、Teng Li(马里兰大学)、Chao Wang(约翰霍普金斯大学)、Reza Shahbazian-Yassar(伊利诺伊大学芝加哥分校)、Liangbing Hu(马里兰大学)
18. (88)Ultrafast Joule heating synthesis of single-atom cobalt- and nitrogen-doped graphene with hierarchically porous structure for hydrogen evolution reaction
具有分级多孔结构的单原子钴氮掺杂石墨烯的超快焦耳加热合成及其在析氢反应中的应用
Nano Research, 2022
通讯作者: Huilong Fei