学习工作经历：

学习经历：

2007-2013中国科学院金属研究所,材料学,博士

2003-2007中南大学,粉体材料科学与工程,学士

工作经历：

2026-至今 深圳理工大学，长聘副教授，博士生导师

2018-2026 浙江大学，研究员

2013-2018德国马普研究所，博士后

所获荣誉（或科研成果）：

2023浙江省杰出青年

2018海外高层次人才

2017国家自然科学二等奖（排名第三）

2015辽宁省自然科学一等奖（排名第三）

2014中国科学院优秀博士论文

2013中国科学院院长特别奖

2011中国科学十大进展

研究领域：

新型二维材料的自下而上设计与控制制备，多维度与多尺度结构调控，及其在多功能集成器件中的规模化应用研究：

（1）新型二维材料（包括石墨烯、石墨炔、二维氮化物、二维半金属等）的设计制备、结构调控及物性研究；

（2）新型集成器件（包括场效应晶体管器件、自旋电子器件、光电传感器件、柔性器件、能源器件等）的构建、功能开发及规模化应用。

联系方式：

电子邮件：chenzongping@suat-sz.edu.cn

代表性论文：

1.Zeng, F., Zhao, F., Su, X., Wang, Q., Liu, Z., Zhen, C., Liu, Y., Liu, G., Ren, W., Han, G.* &Chen, Z.*Surface localized p-n homojunctions in two-dimensional ultrathin titanium oxide with remarkable photocatalytic activity.Chem.Eng. J.519, 164776 (2025).

2.Lu, S., Cai, L., Wang, J., Ying, H., Han, Z.*, Han, W.* &Chen, Z.*2D Ultrathin Titanium Nitride Nanosheets as Separator Coatings for Li-S Batteries.Small20, e2307784 (2024).

3.Lu, S., Li, J., Shen, W., Wang, Z., Ma, Y., Su, X., Lu, Y.*, Li, L.* &Chen, Z.*Two-Dimensional Atomically Thin Titanium Nitride via Topochemical Conversion.ACS Nano17, 24299-24307 (2023).

4.Hao, W., Su, X., Lu, S., Wang, J., Chen, H., Chen, Q., Wang, B., Kong, X., Jin, C., Han, G., Han, Z.*, Müllen, K.* &Chen, Z.*Synthesis and Self-Assembly of Ultrathin Holey Graphdiyne Nanosheets for Oxygen Reduction Reaction.Small19, e2302220 (2023).

5.Chen, Z.*, Narita, A.* & Müllen, K.* Graphene Nanoribbons: On-Surface Synthesis and Integration into Electronic Devices.Adv. Mater.32, e2001893 (2020).

6.Liu, Z.#,Chen, Z.#, Wang, C., Wang, H.I., Wuttke, M., Wang, X.-Y., Bonn, M., Chi, L., Narita, A. & Müllen, K.* Bottom-Up, On-Surface-Synthesized Armchair Graphene Nanoribbons for Ultra-High-Power Micro-Supercapacitors.J. Am. Chem. Soc.142, 17881-17886 (2020).

7.Hafez, H.A., Kovalev, S., Deinert, J.-C., Mics, Z., Green, B., Awari, N., Chen, M., Germanskiy, S., Lehnert, U., Teichert, J., Wang, Z., Tielrooij, K.-J., Liu, Z.,Chen, Z.,Narita, A., Müllen, K., Bonn, M., Gensch, M. & Turchinovich, D.* Extremely efficient terahertz high-harmonic generation in graphene by hot dirac fermions.Nature561, 507-511 (2018).

8.Chen, Z.,Wang, H.I., Bilbao, N., Teyssandier, J., Prechtl, T., Cavani, N., Tries, A., Biagi, R., De Renzi, V., Feng, X., Kläui, M., De Feyter, S., Bonn, M.*, Narita, A.* & Müllen, K.* Lateral fusion of chemical vapor deposited n = 5 armchair graphene nanoribbons.J. Am. Chem. Soc.139, 9483-9486 (2017).

9.Chen, Z.,Wang, H.I., Teyssandier, J., Mali, K.S., Dumslaff, T., Ivanov, I., Zhang, W., Ruffieux, P., Fasel, R., Räder, H.J., Turchinovich, D., De Feyter, S., Feng, X., Kläui, M., Narita, A.*, Bonn, M.* & Müllen, K.* Chemical vapor deposition synthesis and terahertz photoconductivity of low-bandgap n=9 armchair graphene nanoribbons. J. Am. Chem. Soc.139, 3635-3638 (2017).

10.Chen, Z.,Zhang, W., Palma, C.-A., Lodi Rizzini, A., Liu, B., Abbas, A.N., Richter, N., Martini, L., Wang, X.-Y., Cavani, N., Lu, H., Mishra, N., Coletti, C., Berger, R., Klappenberger, F., Kläui, M., Candini, A., Affronte, M., Zhou, C., De Renzi, V., del Pennino, U., Barth, J.V., Räder, H.J., Narita, A., Feng, X.* & Müllen, K.* Synthesis of graphene nanoribbons by ambient-pressure chemical vapor deposition and device integration.J. Am. Chem. Soc.15488-15496 (2016).

11.Chen, Z.,Xu, C., Ma, C., Ren, W.* & Cheng, H.-M.* Lightweight and flexible graphene foam composites for high-performance electromagnetic interference shielding.Adv. Mater.25, 1296-1300 (2013).

12.Chen, Z.#,Ren, W.C. #, Gao, L.B., Liu, B.L., Pei, S.F. & Cheng, H.-M.* Three-dimensional flexible and conductive interconnected graphene networks grown by chemical vapour deposition.Nature Mater.10, 424-428 (2011).

(*Corresponding author；^#Equalcontribution)