Carbon Energy两周年|碳材料综述篇

Carbon Energy两周年

为了庆祝Carbon Energy创刊两周年，我们为各位读者汇总了碳材料综述合集，欢迎各位读者阅读！

1. Cui,Yi et al.

Demanding energy from carbon

10.1002/cey2.12  

Carbon Energy, 2019, 1(1), 13-18.

斯坦福大学崔屹教授说：金刚石也能致密储能?

2.Dai,Liming et al.

Ten years of carbon‐based metal‐free electrocatalysts

Carbon Energy, 2019, 1(1), 19-31.

10.1002/cey2.5

戴黎明教授综述:十年碳基无金属电催化剂的新进展

3.Yu,Jiaguo et al.

Review on DFT calculation of s‐triazine‐based carbon nitride

Carbon Energy, 2019, 1(1), 32-56.

10.1002/cey2.1

研究C3N4光催化机理的重器来啦！

4.Jang,Ho Won et al.

Reduced graphene oxide‐based materials for electrochemical energy conversion reactions

Carbon Energy. 2019, 1(1), 85-108.

10.1002/cey2.13

韩国电池大牛Ho Won Jang教授的新综述：氧化石墨烯基能量转化与储存材料的过去、现在和未来

 5.Chen,Yuan et al.

Synthesis of graphene materials by electrochemical exfoliation: Recent progress and future potential

Carbon Energy. 2019, 1(2), 173-199.

10.1002/cey2.14

电化学剥离法合成石墨烯材料的现状和未来

6.Su,Dong et al.

In‐situ structural characterizations of electrochemical intercalation of graphite compounds

Carbon Energy. 2019, 1(2), 200-218.

10.1002/cey2.21

原位表征技术在石墨/膨胀石墨的电化学离子脱嵌反应中的最新研究进展

7. Gao,Shanmin et al.

Carbon materials from melamine sponges for supercapacitors and lithium battery electrode materials: A review

Carbon Energy. 2019, 1(2), 253-275.

10.1002/cey2.19

三聚氰胺海绵制备多孔碳用于超级电容器和锂离子电池的研究进展

8.Won,Da Hye et al.

Progress in development of electrocatalyst for CO₂ conversion to selective CO production.

Carbon Energy. 2020, 2(1), 72-98

10.1002/cey2.27

电化学催化还原CO₂高选择性生成CO研究进展

9.Shen,Peikang  et al.

Nonprecious metal's graphene‐supported electrocatalysts for hydrogen evolution reaction: Fundamentals to applications.

Carbon Energy, 2020, 2(1), 99-121.

10.1002/cey2.26

石墨烯负载的非贵金属电催化剂在析氢反应（HER）中的研究进展

10.Soo Young Kim et al.

Graphene‐based catalysts for electrochemical carbon dioxide reduction

Carbon Energy. 2020, 2(2), 158-175

10.1002/cey2.41

石墨烯复合材料电催化还原二氧化碳进展

11. Liu,Qi  et al.

Recent progress on MOF‐derived carbon materials for energy storage

Carbon Energy. 2020, 2(2), 176-202

10.1002/cey2.44

MOF-衍生碳材料在能源存储领域的最新进展

12. Yuan,Changzhou et al.

Conductive metal‐organic frameworks: Recent advances in electrochemical energy‐related applications and perspectives

Carbon Energy. 2020, 2(2), 203-222

10.1002/cey2.45

导电金属有机框架材料的现状和未来

13.Liang,Ji et al.

Graphitic carbon nitride (g‐C3N4)‐based nanosized heteroarrays: Promising materials for photoelectrochemical water splitting

Carbon Energy. 2020, 2(2), 223-250

10.1002/cey2.48

基于g-C3N4纳米异质结阵列的光电化学水裂解电极的最新进展

14.Chen,Guangming et al.

Carbon and carbon composites for thermoelectric applications. 

Carbon Energy. 2020, 2(3), 408-436.

10.1002/cey2.68

陈光明教授&张其春教授：碳及碳复合热电材料综述

15. Sun,Shuhui  et al.

Biomass‐derived nonprecious metal catalysts for oxygen reduction reaction: The demand‐oriented engineering of active sites and structures.

Carbon Energy, 2020, 2(4), 561-581.

10.1002/cey2.73

加拿大国立科学研究院孙书会教授团队|生物质材料在非贵金属氧还原电催化剂的应用

16.Qiao,Jinli et al.

Carbon‐based metal‐free catalysts for electrochemical CO₂ reduction: Activity, selectivity, and stability.

Carbon Energy, 2021, 3(1), 24-49.

10.1002/cey2.87

东华大学乔锦丽课题组|非金属碳基催化剂电催化还原CO2进展

17.Yu,Yan et al.

Dan Yang, Dong Chen, Yu Jiang, Edison Huixiang Ang, Yuezhan Feng, Xianhong Rui*, *.Carbon‐based materials for all‐solid‐state zinc–air batteries. 

Carbon Energy, 2021, 3(1), 50-65

10.1002/cey2.88

广东工业大学芮先宏教授&中国科学技术大学余彦教授|碳基材料在固态锌空电池的发展和应用

18. Piao,Yuanzhe et al.

Metal‐organic frameworks‐derived novel nanostructured electrocatalysts for oxygen evolution reaction.

Carbon Energy, 2021, 3(1), 66-100.

10.1002/cey2.80

韩国首尔大学Yuanzhe Piao教授|MOFs衍生物作为OER催化剂的发展和应用

 19. Wang,Xue-Bin  et al.

Porous monoliths of 3D graphene for electric double layer supercapacitors. 

Carbon Energy, 2021, 3(2), 193-224

10.1002/cey2.107

南京大学王学斌Carbon Energy综述：三维石墨烯多孔块体的构建和双电层电容器研究进展

20.Liang,Ji et al.

Photo-rechargeable batteries and supercapacitors: Critical roles of carbon-based functional materials. 

Carbon Energy, 2021, 3(2), 225-252.

10.1002/cey2.105

王立群|梁骥|闻雷Carbon Energy综述:光充电的二次电池和超级电容器：兼论碳基功能材料在其中的重要应用

21. Liu,Ruiping et al.

Carbon-based flexible self-supporting cathode for lithium-sulfur batteries: Progress and perspective.

Carbon Energy, 2021, 3(2), 271-302.

10.1002/cey2.96

刘瑞平|冯明|张蕾 Carbon Energy综述：碳基柔性自支撑锂硫电池正极研究进展与展望

22. Peng,Dong-Liang et al.

Multifunctional roles of carbon-based hosts for Limetal anodes: A review. 

Carbon Energy, 2021, 3(2), 303- 329

10.1002/cey2.95

厦门大学彭栋梁/谢清水/瞿佰华Carbon Energy综述：碳基集流体在锂金属负极中的应用

23.Kun (Kelvin) Fu et al.

3D printing-enabled advanced electrode architecture design.

Carbon Energy, 2021, 3(3), 424-439.

10.1002/cey2.114

特拉华大学Kun (Kelvin) Fu-综述-3D打印实现先进电极结构设计

24. Zhang,Qichun  et al.

Carbon material-based anodes in the microbial fuel cells.

Carbon Energy, 2021, 3(3), 449-472

10.1002/cey2.113

香港城市大学张其春|郑州大学李朝辉、宋荣斌Carbon Energy: MFC中基于碳材料的阳极发展

25. Liang,Yeru  et al.

Architecture engineering of carbonaceous anodes for high-rate potassium-ion batteries

Carbon Energy, 2021, 3(4), 554-581.

10.1002/cey2.99

高倍率钾离子电池碳质负极材料的构建原理和最新研究进展

26.Byeong-Su Kim et al.

Modulating charge carriers in carbon dots toward efficient solar-to-energy conversion

Carbon Energy, 2021, 3(4), 590-614

10.1002/cey2.115

调整碳点中的载流子实现高效的太阳能转换