胡传刚

时间:2021-02-26阅读次数:6657

胡传刚教授   博士生导师

办公地址

北京市朝阳区北三环东路15号北京化工大学化新楼 310A

电子邮箱

chuangang.hu@mail.buct.edu.cn

联系电话

13776401360


招生专业及研究方向

招生专业:
材料化工、能源化工、化学

研究方向:

先进碳基材料合成(异质结构、分级结构、杂化结构、高度有序碳材料)与催化应用;

纳米科学用于能源转换与储存(各类电化学催化器件、金属-空气电池、以及集成器件)

个人经历

2020.12-至今,  教授, 北京化工大学

2019.09-2020.09,研究助理,澳大利亚新南威尔士大学

2015.08-2019.08,博士后,美国凯斯西储大学

2011.09-2015.07,博士,  北京理工大学

2004.09-2011.07,学士、硕士,河南师范大学


学术成就

已在国际知名学术期刊发表SCI论文91篇,参与编著英文书籍1章。论文总被引11000余次,h-index为52。36篇论文以第一作者或通讯作者发表在Chem. Soc. Rev.、Adv. Mater.、Energy Environ. Sci.、Angew. Chem. Int. Edit. Ed.、Nano Lett.、ACS Nano、Adv. Energy Mater.、Nano Energy、ACS Cent. Sci., Chem. Mater. 等国际顶级期刊。获授权国家发明专利6项。在美国化学会年会上做口头报告2次。应邀担任Nature Commun., ACS Nano, Nano Energy, ACS Applied Materials & Interfaces, Carbon等国际重要学术期刊审稿人。


第一作者或通讯作者代表性论文

1.Carbon-based metal-free electrocatalysts: from oxygen reduction to multifunctional electrocatalysis. Chem. Soc. Rev., 2021, 50, 11785. (IF: 54.564)

2.Topological defect-rich carbon as a metal-free cathode Catalyst for high-performance Li-CO2 batteries. Adv. Energy Mater., 2021, 11, 2101390. (IF: 29.638)

3.Facile synthesis of Co, N enriched carbon nanotube and active site identifications for bifunctional oxygen reduction and evolution catalysis. Energy Storage Mater., 2021, 298, 120543. (IF: 17.789)

4.Large-scale production of holey carbon nanosheets implanted with atomically dispersed Fe sites for boosting oxygen reduction electrocatalysis, Nano Res. 2021, doi.org/10.1007/s12274-021-3816-y. (IF: 8.897)

5.N, P, and S tri-doped holey carbon as an efficient electrocatalyst for oxygen reduction in whole pH range for fuel cell and zinc-air batteries, Carbon, 2021, 179, 365. (IF: 9.594)

6.Multifunctional carbon-based metal-free catalysts for advanced energy conversion and storage, Cell Rep. Phys. Sci. 2021, 2, 100328.

7.High‐performance, long-life, rechargeable Li-CO2 batteries based on a 3D holey graphene cathode implanted with single iron atoms. Adv. Mater. 2020, 32, 1907436. (IF: 30.849) 

8.Heteroatom-doped carbon catalysts for zinc-air batteries: progress, mechani**, and opportunities, Energy Environ. Sci. 2020, 13, 4536. (IF: 38.52)

9.Carbon-based metal-free catalysts for energy storage and environmental remediation, Adv. Mater. 2019, 31, 1806128. (IF: 30.849, Highly cited paper)

10.Graphdiyne with tunable activity towards hydrogen evolution reaction, Nano Energy 2019, 63, 103874. (IF: 17.881)

11.Carbon nanomaterials for energy and biorelated catalysis: recent advances and looking forward, ACS Cent. Sci., 2019, 5, 389. (IF: 14.553)

12.Doping of carbon materials for metal-free electrocatalysis. Adv. Mater. 2018, 1804672. (IF: 30.849, Highly cited paper)

13.Multifunctional carbon-based metal-free electrocatalysts for simultaneous oxygen reduction, oxygen evolution, and hydrogen evolution. Adv. Mater. 2017, 29, 1604942. (IF: 30.849, Highly cited paper)

14.Earth-abundant carbon catalysts for renewable generation of clean energy from sunlight and water. Nano Energy 2017, 41, 367. (IF: 17.881)

15.Carbon-based metal-free catalysts for electrocatalysis beyond the ORR. Angew. Chem. Int. Ed. 2016, 55, 2. (IF: 12.257, Highly cited paper)

16.Scalable preparation of multifunctional fire-retardant ultralight graphene foams. ACS Nano 2016, 10, 1325. (IF: 15.881)

17.Tailored graphene systems for unconventional applications in energy conversion and storage devices. Energy Environ. Sci. 2015, 8, 31. (IF: 38.52, Highly cited paper)

18.Branched graphene nanocapsules for anode material of lithium-ion batteries. Chem. Mater. 2015, 27, 5253. (IF: 38.52)

19.A powerful approach to functional graphene hybrids for high performance energy-related applications. Energy Environ. Sci. 2014, 7, 3699. (IF: 38.52)

20.Newly-designed complex ternary Pt/PdCu nanoboxes anchored on three-dimensional graphene framework for highly efficient ethanol oxidation. Adv. Mater. 2012, 24, 5493. (IF: 30.849, Highly cited paper)

21.Graphene microtubings: controlled fabrication and site-specific functionalization. Nano Lett. 2012, 12, 5879. (IF: 11.189)


论著专利

1. 曲良体*,胡传刚,翟相泉。一种在导电基底上自发沉积三维石墨烯的方法;(公示专利号:201310211750.X)

2. 曲良体*,胡传刚,王霄鹏,胡仔健,何新元,王勇。一种球磨制备微晶石墨烯的方法; (公示专利号:ZL201410690141.0)

3. 曲良体*,胡传刚。一种规模化连续生产三维石墨烯膜的方法;(公示专利号:ZL201410509947.5)

4. 曲良体*,胡传刚,叶明晖,胡仔健,何新元,王勇。由微晶石墨批量制备石墨烯的方法;(公示专利号:ZL201410688163.3)

5. 曲良体*,胡传刚,郑观培,胡仔健,何新元,王勇。由微晶石墨制备石墨烯的方法;(公示专利号:ZL201510158023.X)

6. 曲良体*,郑观培,胡传刚,胡仔健,何新元,王勇。由微晶石墨热溶剂剥离制备微晶石墨烯的方法。(公示专利号:ZL201510156136.6)


科研项目

1.中组部高层次青年人才项目,“先进碳基催化材料的制备及在集成器件中的应用,2021/04-2023/04,200万元,在研,主持

2.中央高校研究支持项目,buctrc202118,“多功能碳基催化剂的设计与制备”2021/01-2023/01,200万元,在研,主持

3.国家自然科学基金面上项目,22010017019,“sp2/sp3分级结构碳基材料构筑及其电催化二氧化碳高阶还原机制研究” 2022/01-2025/12,60万元,在研,主持

4.北京化工大学“有机/无机国家重点实验室”人才培育项目,52172179,“碳/CxHyOz纳米带基元构建高效析氧催化复合材料”


国际合作与交流

与澳大利亚新南威尔士大学有长期合作关系,适当时机可送至国外联合培养。欢迎优秀学生加入课题组学习和交流。