张金灿,苏州大学特聘教授,博士生导师。2014年本科毕业于山东大学,2019年于北京大学获博士学位,曾获评北京市优秀毕业生和北京大学优秀博士学位论文等。2019-2020年在北京石墨烯研究院工作;2020-2024年在英国剑桥大学开展博士后研究工作,2022-2024年担任剑桥大学休斯学院研究员。2024年2月入职suncitygroup太阳集团网址,主要从事石墨烯等纳米碳材料的化学气相沉积制备、碳基清洁能源材料与器件研究。近年来在国内外学术期刊上共发表研究论文50余篇,其中通讯作者/第一作者论文21篇,包括Nat. Commun., Adv. Mater., JACS, Angew. Chem., ACS Nano等;申请专利50余项,并已授权专利26项;参与撰写学术专著5部;参加国内外学术会议近30次,其中口头报告6次;担任Frontiers、Material Science and Development和Progress in Natural Science Materials International等期刊编委,并长期担任Nature、Wiley、ELSEVIER等旗下多个期刊的审稿人。
课题组成立于2024年2月,依托suncitygroup太阳集团网址、能源与材料创新研究院、苏州大学——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,与北京大学、清华大学、浙江大学、英国牛津大学、英国剑桥大学、中国科技大学、中国科学院大学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。
电子邮箱:jczhang2024@suda.edu.cn
主要研究方向
1. 石墨烯材料的CVD制备及性能探索。
2. 氢能制造、存储、输运、利用关键材料与器件。
3. 碳基能源材料与器件的高分辨原位电镜和谱学表征。
常年招收有志于从事石墨烯可控制备及清洁能源材料研究的博士后、博士研究生及硕士研究生
代表性学术论文
1. 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).
2. 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).
3. 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. 2303802 (2023).
4. Y Huang*, B Mao, H Li, J Zhang*, Graphene wettability: fundamentals, modulations, and applications in energy fields, Mater. Chem. Phys., 313,128670, (2023).
5. 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).
6. 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).
7. 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).
8. 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).
9. 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).
10. 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).
11. 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).
12. 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).
13. 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).
14. 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).
15. 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).
16. 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).
17. 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).
18. 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).
19. 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).
20. 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).
21. 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).