澳门赌场

欢迎访问澳门赌场-澳门新葡京赌场-澳门赌场排名 !

张金灿

发布者:戴华洁发布时间:2018-08-25浏览次数:6331


个人简介

张金灿,澳门赌场 特聘教授、博士生导师、课题组长(PI),国家高层次青年人才,江苏特聘教授、青年科技托举人才,姑苏创新领军人才。主要从事石墨烯材料的可控制备与应用研究。迄今为止发表学术论文50余篇,被引用2900余次,H因子29(谷歌学术),其中第一/通讯作者论文23篇,包括2Nat. Commun.6Adv. Mater.3J. Am. Chem. Soc.2Angew. Chem. Int. Ed.等。获授权发明专利17项,实用新型专利9项。参加国内外学术会议30余次,其中口头报告6次,邀请报告4次,并担任多个期刊编委和审稿人。研究成果被Nat. Commun.,科学网,北大新闻网,物理化学学报等作为亮点报道。

详细信息参考课题组网站://jincanzhanglab.dcaomen.com


教育与工作经历

2024-至今 特聘教授、博士生导师、独立PI,澳门赌场-澳门新葡京赌场-澳门赌场排名

2020-2024 博士后,剑桥大学剑桥石墨烯中心,合作导师:Andrea C. Ferrari 院士

2019-2020 项目组长,北京石墨烯研究院标号石墨烯材料研究部

2014-2019 博士,北京大学前沿交叉学科研究院,导师:刘忠范院士、彭海琳教授

2010-2014     学士,山东大学材料科学与工程澳门赌场,导师:欧阳俊教授


研究方向

1.石墨烯新材料的可控合成与构效关系研究

2.氢能制造、存储、输运、利用的关键材料创制

3.碳基能源材料与器件的高分辨原位表征与微观机制研究


个人荣誉及人才项目

2024 国家四青人才:海外高层次青年人才

2024 江苏特聘教授

2024年 江苏省青年科技托举人才

2024 姑苏创新领军人才

2022 剑桥大学休斯澳门赌场荣誉研究员

2020 北京石墨烯研究院优秀项目组长

2019 北京大学优秀博士学位论文

2019 北京市优秀毕业生


招聘招生

常年招收有志于从事石墨烯材料可控制备与清洁能源材料研究的博士后、博士生、硕士生、科研助理和访问学者。课题组成立于20242月,依托澳门赌场-澳门新葡京赌场-澳门赌场排名 、能源与材料创新研究院、澳门赌场 ——北京石墨烯研究院产学研协同创新中心及江苏省先进碳材料与可穿戴能源技术重点实验室等科研平台,拥有充足的经费、园林式学习办公环境及快乐的科研文化氛围。课题组负责人具有材料、化学、物理和工程多学科交叉学术背景,现为英国化学会、美国化学会、中国化学会和中国材料学会会员,与剑桥大学、牛津大学、斯坦福大学、意大利科澳门赌场和北京大学、清华大学、浙江大学、中国科澳门赌场物理所等一流研究机构保持长期合作,可提供良好的科研发展模式及人才培育空间。


联系方式

邮箱:[email protected]

地址:澳门赌场 东校区澳门赌场 公共测试中心205


代表性学术论文(加#为共同第一作者,*为通讯作者)

1.       Y Zhu#, J Zhang#, T Cheng#, J Tang, H Duan, Z Hu, J Shao, S Wang, M Wei, H Wu, A Li, S Li, O Balci, SM Shinde, H Ramezani, L Wang, L Lin, AC Ferrari, BI Yakobson*, H Peng*, K Jia*, Z Liu*, Controlled growth of single-crystal graphene wafers on twin-boundary-free Cu (111) substrates, Adv. Mater.17, 2303802 (2024).

2.       Y Huang*, B Mao, H Li, J Zhang*, Graphene wettability: fundamentals, modulations, and applications in energy fields, Mater. Chem. Phys. 313,128670 (2024).

3.       Y Fang, K Zhou, W Wei, J Zhang*, J Sun*, Recent advances in batch production of transfer-free graphene,Nanoscale16, 10522 (2024).

4.       S Lv, H Liu*, F Yan, W Lu, B Mao*, J Zhang*, CVD graphene with high electrical conductivity: empowering applications, 2D Mater.12, 013003 (2025).

5.       J Zhang#, X Liu#, M Zhang#, R Zhang#, H Ta, J Sun, W Wang, W Zhu, T Fang, K Jia, X Sun, X Zhang, Y Zhu, J Shao, Y Liu, X Gao, Q Yang, L Sun, Q Li, F Liang, H Chen, L Zheng, F Wang, W Yin, X Wei, J Yin, T Gemming, M Rummeli, H Liu*, H Peng*, L Lin* & Z Liu*, Fast synthesis of large-area bilayer graphene film on Cu, Nat. Commun.14, 3199 (2023).

6.       H Chen#, X Liu#, Y Huang#, G Li, F Yu, F Xiong, M Zhang, L Sun, Q. Yang, K Jia, R Zou, H. Li, S. Meng, S Meng, L Lin, J Zhang*, H Peng*, Z Liu*, Oxidization-temperature-triggered rapid preparation of large-area single-crystal Cu(111) foil, Adv. Mater. 35, 2209755 (2023).

7.       J Zhang#, K Jia#, Y Huang#, X Liu, Q Xu, W Wang, R Zhang, B Liu, L Zheng, H Chen, P Gao, S Meng, L Lin*, H Peng*, and Z Liu*, Intrinsic wettability in pristine graphene, Adv. Mater.34, 2103620 (2022).

8.       K Jia#, Z Ma#, W Wang#, Y Wen, H Li, Y Zhu, J Yang, Y Song, J Shao, X Liu, Q Lu, Y Zhao, J Yin, L Sun, H Peng, J Zhang*, L Lin*, and Z Liu*, Toward batch synthesis of high-quality graphene by cold-wall chemical vapor deposition approach, Nano Res.15, 9683 (2022).

9.       X Liu#, J Zhang#, W Wang#, W Zhao#, H Chen, B Liu, M Zhang, F Liang, L Zhang, R Zhang, N Li, Y Zhang, Y Liu, K Jia, L Sun, Y Zhao, P Gao, Q Yuan, L Lin*, H Peng*, and Z Liu*, The role of Cu crystallographic orientations towards growing superclean graphene on meter-sized scale, Nano Res.15, 3775 (2022).

10.    J Zhang#,*, K Jia#, Y Huang, Y Wang, N Liu, Y Chen, X Liu, X Liu, Y Zhu, L Zheng, H Chen, F Liang, M Zhang, X Duan, H Wang, L Lin*, H Peng*, and Z Liu*, Hydrophilic, clean graphene for cell culture and cryo-EM imaging,Nano Lett.21, 9585 (2021).

11.    K Jia#, J Zhang#, Y Zhu, L Sun, L Lin*, and Z Liu*, Toward the commercialization of chemical vapor deposition graphene films,Appl. Phys. Rev. 8, 041306 (2021).

12.    H Chen#, J Zhang#, X Liu, and Z Liu*, Effect of gas-phase reaction on the CVD growth of graphene, Acta Phys. -Chim. Sin. 37, 2101053 (2021).

13.    J Zhang#, H Hong#, J Zhang#, C Wu, H Peng, K Liu*, and S Meng*, Unravelling a zigzag pathway for hot carrier collection with graphene electrode, J. Phys. Chem. Lett.12, 2886 (2021).

14.    J Zhang, L Sun, K Jia, X Liu, T Cheng, H Peng, L Lin*, and Z Liu*, New growth frontier: superclean graphene, ACS Nano 14, 10796 (2020).

15.    K Jia#, H Ci#, J Zhang#, Z Sun, Z Ma, Y Zhu, S Liu, J Liu, L Sun, X Liu, J Sun, W Yin, H Peng*, L Lin*, and Z Liu*, Superclean growth of graphene using a cold-wall chemical vapor deposition approach, Angew. Chem. Int. Ed.59, 17214 (2020).

16.    J Zhang, L Lin, K Jia, L Sun, H Peng*, and Z Liu*, Controlled growth of single-crystal graphene films, Adv. Mater.32, 1903266 (2019).

17.    J Zhang#, L Lin#, K Jia#, L Sun, H Peng*, and Z Liu*, Large-area synthesis of superclean graphene via carbon dioxide selective etching of amorphous carbon, Angew. Chem. Int. Ed.58, 1(2019).

18.    L Lin#, J Zhang#, H Su#, J Li#, L Sun, Z Wang, F Xu, C Liu, S Lopatin, Y Zhu, K Jia, S Chen, D Rui, J Sun, R Xue, P Gao, N Kang, Y Han, HQ Xu, Y Cao, KS Novoselov, Z Tian, B Ren, H Peng*, and Z Liu*, Towards superclean graphene, Nat. Commun.10, 1912 (2019).

19.    K Jia#, J Zhang#, L Lin#, Z Li, J Gao, L Sun, R Xue, Z Luo, MH Rummeli, H Peng*, and Z Liu*, Copper-containing carbon feedstock for growing superclean graphene, J. Am. Chem. Soc.141, 7670 (2019).

20.    N Liu#, J Zhang#, Y Chen#, C Liu, X Zhang, K Xu, J Wen, Z Luo, S Chen, P Gao, H Peng*, and H Wang*, Bioactive functionalized monolayer graphene for high resolution cryo-EM, J. Am. Chem. Soc.141, 4016 (2019).

21.    J Zhang#, Y Huang#, Z Tan#, T Li, Y Zhang, K Jia, L Lin, L Sun, X Chen, Z Li, C Tan, J Zhang, L Zheng, Y Wu, B Deng, Z Chen, Z Liu*, and H Peng*, Low-temperature heteroepitaxy of 2D PbI2/graphene for large-area flexible photodetectors, Adv. Mater.30, 1803194 (2018).

22.    H Hong#, J Zhang#, J Zhang#, R Qiao, F Yao, Y Cheng, C Wu, L Lin, K Jia, Y Zhao, Q Zhao, P Gao, J Xiong, K Shi, D Yu, Z Liu, S Meng*, H Peng*, and K Liu*, Ultrafast broadband charge collection from clean graphene/CH3NH3PbI3 interface,J. Am. Chem. Soc.140, 14592 (2018).

23.    J Zhang#, L Lin#, L Sun, Y Huang, AL Koh, W Dang, J Yin, T Li, C Tan, Z Liu*, and H Peng*, Clean transfer for high-intactness suspended large single-crystal graphene membranes and liquid cells, Adv. Mater.29, 1700639 (2017).