张程

作者:时间:2024-02-27点击数:

硕士研究生指导教师简介

   

 张程

   

出生年月

1993.12

最高学历、学位

 博士研究生、博士

   

 教授

   


电子邮箱

zhangcheng@usts.edu.cn


一、基本情况:

TB天博·体育(中国)官网登录入口-BinG百科 NO.1讲师。2012.09—2016.06苏州大学(本科)。2012.09—2021.06苏州大学(硕博连读),导师为路建美/李华 教授。2019.092020.10 新加坡南洋理工大学(联培博士),导师为张其春 教授。20216月获得工学博士学位。2022.122024.12 中科院苏州纳米所博士后,导师为张珽/王小伟 研究员。2023年被遴选为硕士生导师。

二、主要研究领域及学术成就:

主要从事新型有机/二维半导体材料的设计与合成,开发大面积、图案化制备有机功能薄膜的新方法,从分子尺度研究材料的阻变性能及其物理机制,并且探索其在忆阻器、人工突触和神经形态计算领域的应用。基于上述研究结果,申请人已在国内外学术期刊上发表论文 50 余篇,其中以第一作者及通讯作者在 Adv. Funct. Mater. (2), Adv. Sci. (1), Nano Energy (1), Small (3), Chinese J. Chem. (1), Sci China Mater. (1), ACS Appl. Mater. Interfaces (4), Chem. Commoun. (1)Nano Research (1) 等高质量期刊上发表 SCI 论文 28 篇,多篇论文入选期刊封面和热点论文,论文被引用900余次, H-index: 19。此外,申请国家发明专利 4 件,PCT 国际发明专利 2 件。承担科技部重点研发子课题1项,国家自然科学基金1项,博士后面上1项,江苏省高校自然科学基金1 项,苏州市前沿技术研究1项。当选 2023 年国际科学组织 Vebleo 会士,担任 SCI 期刊《Polymers》专刊的客座编辑,《结构化学》青年编委。荣获“Wiley 威立中国开放科学 2022 年度作者”,江苏省材料学会科技进步一等奖(2/8),江苏省材料学会优秀论文等。

三、代表性科研成果:

1. Xia Y, Zhang C, Xu Z, Lu S, Cheng X, Wei S, Yuan J, Sun Y & Li Y. Organic iontronic memristors for artificial synapses and bionic neuromorphic computing. Nanoscale 16, 1471-1489 (2024).

2 Xu Z, Li Y, Xia Y, Shi C, Chen S, Ma C, Zhang C⁎ & Li Y⁎. Organic frameworks memristor: An emerging candidate for data storage, artificial synapse, and neuromorphic device. Adv. Funct. Mater., doi:10.1002/adfm.202312658 (2024).

3. Teng M, Yuan J, Li Y, Shi C, Xu Z, Ma C, Yang L⁎, Zhang C⁎, Gao J & Li Y⁎. Bimetallic atom synergistic covalent organic framework for efficient electrochemical nitrate reduction. J. Colloid Interf. Sci. 654, 348-355 (2024).

4. Li Y⁎, Ling S, He R, Zhang C⁎, Dong Y, Ma C, Jiang Y, Gao J, He J & Zhang Q⁎. A robust graphene oxide memristor enabled by organic pyridinium intercalation for artificial biosynapse application. Nano Res. 16, 11278-11287 (2023).

5 Wang K⁎, Chen C, Li Y, Hong Y, Wu H, Zhang C⁎ & Zhang Q⁎. Insight into electrochemical performance of nitrogen‐doped carbon/nic-alloy active nanocomposites. Small 19, 2300054 (2023).

6. Zhang C⁎, Chen M, Pan Y, Li Y⁎, Wang K, Yuan J, Sun Y⁎ & Zhang Q⁎. Carbon nanodots memristor: An emerging candidate toward artificial biosynapse and human sensory perception system. Adv. Sci. 10, 2207229 (2023).

7. Zhang C, Feng C, Yuan J, Wang Z, Wang Y, Zhou S, Gu P & Li Y⁎. Extended construction strategies of Ag3PO4-based heterojunction photocatalysts for robust environmental applications. J. Environ. Chem .Eng. 11, 110705 (2023).

8. Zhang C, Li Y⁎, Yu F, Wang G, Wang K, Ma C⁎, Yang X⁎, Zhou Y & Zhang Q⁎. Visual growth of nano-HOFs for low‐power memristive spiking neuromorphic system. Nano Energy 109, (2023).

9. Zhang C, Wang X, Li Y⁎, Sun Y⁎ & Zhang Q⁎. Spin in organic cocrystals. Chem. Eur. J. 29, 202300481 (2023).

10. Li Y⁎, Pan Y, Zhang C⁎, Shi Z, Ma C, Ling S, Teng M, Zhang Q, Jiang Y, Zhao R & Zhang Q⁎. Molecular-shape-controlled binary to ternary resistive random-access memory switching of N-containing heteroaromatic semiconductors. ACS Appl. Mater. Interfaces 14, 44676-44684 (2022).

11. Ling S, Zhang C⁎, Ma C, Li Y⁎ & Zhang Q⁎. Emerging mxene‐based memristors for in‐memory, neuromorphic computing, and logic operation. Adv. Funct. Mater. 33, 2208320 (2022).

12. Zhang C, Chen M, Wang G, Teng M, Ling S, Wang Y, Su Z, Gao K, Yang X⁎, Ma C, Li Y⁎ & Zhang Q⁎. Variable learning-memory behavior from π-conjugated ligand to ligand-containing cobalt(ii) complex. Chinese J. Chem. 40, 2296-2304 (2022).

13. Zhang C, Li Y⁎, Li Z, Jiang Y, Zhang J, Zhao R, Zou J, Wang Y, Wang K, Ma C⁎ & Zhang Q⁎. Nanofiber architecture engineering implemented by electrophoretic-induced self-assembly deposition technology for flash-type memristors. ACS Appl. Mater. Interfaces 14, 3111-3120, (2022).

14. Zhang C⁎, Li Y⁎, Ma C & Zhang Q⁎. Recent progress of organic-inorganic hybrid perovskites in RRAM, artificial synapse, and logic operation. Small Sci. 2, 2100086 (2021).

15. Zhang C, Li H⁎, Li Z, Li Y, Zhang Q J & Lu J M⁎. Solvent‐vapor annealing of amphiphile/metal interface for orientated molecular stacking and upgraded resistive memory performance. Macromol. Chem. Phys. 220, 1900334 (2019).

16. Zhang C, Li H⁎, Lin S, Su Y, Zhang Q, Li Y, Wang K & Lu J⁎.  Fabrication of one-dimensional organic nanofiber networks via electrophoretic deposition for a nonvolatile memory device. ACS Appl. Mater. Interfaces 12, 57254-57263 (2020).

17. Zhang C, Li H⁎, Su Y, Yu F, Li C, Zhang Q & Lu J⁎. The incorporation of the ionization effect in organic semiconductors assists in triggering multilevel resistive memory behaviors. Mater. Chem. Front. 4, 3280-3289 (2020).

18. Zhang C, Li H⁎, Su Y, Zhang Q, Li Y & Lu J⁎. Controllable and versatile electrophoretic deposition technology for monolithic organic memory devices. ACS Appl. Mater. Interfaces 12, 15482-15490 (2020).

19. Zhang C, Li Y, Li H⁎, Zhang Q & Lu J⁎. Overview of electric-field-induced deposition technology in fabricating organic thin films. J. Mater. Chem. C 9, 374-394, (2021).

20. Zhang C, Wang Z, Li H⁎, Lu J⁎ & Zhang Q⁎. Recent progress in the usage of tetrabromo-substituted naphthalenetetracarboxylic dianhydride as a building block to construct organic semiconductors and their applications. Org. Chem. Front. 7, 3001-3026 (2020).

21. Zhang C, Li Y, Zhang Q, Li H⁎, Xu Q, He J & Lu J⁎. Effects of single atom n-substitution in the molecular skeleton on fabricated film quality and memory device performance. Cryst. Growth Des. 18, 1432-1436 (2018).

22. Zhang C, Li Y, Zhou Y, Zhang Q, Li H⁎ & Lu J⁎. Deriving highly oriented organic nanofibers and ternary memory performance via salification-induced effects. Chem. Commun. 54, 10610-10613 (2018).


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