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专业: 无机材料化学

[调剂信息] 招收材料、化学、化工、电子等背景调剂考生（要求第一志愿为中山大学）

考研调剂招生信息

学校:	中山大学
专业:	工学->材料科学与工程理学->化学工学->化学工程与技术
年级:	2025
招生人数:	1
招生状态:	正在招生中
联系方式:	********* (为保护个人隐私,联系方式仅限APP查看)

补充内容

一、研究组简介

低维材料与柔性电子研究小组创建于2024年4月，位于中山大学柔性电子学院（深圳校区）。研究组目前有1位博士导师，1位博士研究生，2名硕士研究生。组长为陈少华副教授，博士生导师、博士后合作导师（https://sofe.sysu.edu.cn/zh-hans/teacher/228 ）。本科和博士毕业于东华大学材料科学与工程学院、纤维材料改性国家重点实验室，师从朱美芳院士。毕业后在清华大学清华-伯克利深圳学院从事博士后研究，师从成会明院士；之后在新加坡新加坡南洋理工大学材料科学与工程学院任研究员，合作导师lee pooi see院士。目前主持中山大学引进人才项目，曾作为骨干参与国防基础科研项目、国家自然科学基金面上项目、新加坡国家研究基金项目。已在chem. rev., nat. nanotechnol., adv. mater., nat. commun., adv. energy mater., nano energy, adv. science等学术期刊发表论文30余篇，被引2500余次；获授权发明专利10件；合著论著1部。担任energy storage mater., acs energy letters, j. am. ceram. soc.等期刊独立审稿人。

本研究组目前研究方向包括：（1）低维纳米材料（如纳米纤维；无机纳米线；类石墨烯二维纳米片等）的制备和改性；（2）新型纤维、薄膜、凝胶的加工成形和结构调控；（3）柔性/可穿戴电子器件应用（柔性电源、软体致动器、柔性传感器、柔性电子元件、柔性导热膜等）；（4）电化学等工况环境下原位xrd、原位电镜、原位光谱表征。研究组实验室已配备材料制备设备（反应釜、烘箱、管式炉、超声分散机、研磨机等）、加工成形设备（纺丝机、3d打印机、刮膜机、热压机）、器件组装设备（电容器、电池、执行器、传感器等所需手套箱、冲压机等）以及性能表征仪器（万能试验机、四探针仪、电化学工作站、石英晶体微天平）等基本设备，能够保证实验的顺利开展。

柔性电子学院处于中山大学深圳校区，校内学科设置齐全，科研平台设施完备，前沿交叉研究活跃。深圳校区位于宜居、宜学、宜研的光明区科学城，周边拥有中国散裂中子源、深圳综合粒子设施、国家超算深圳中心、材料基因组设施、特殊环境材料器件科学与应用研究设施、脑解析与脑模拟设施、精确医学影像设施以及中科院深圳理工大学、南方科技大学光明高等研究院、深圳医学科学院、深圳湾实验室、松山湖材料实验室等新型科研机构。到2025年，光明科学城将初步形成世界级科学城的核心功能；到2035年，将基本建成大湾区综合性国家科学中心核心承载区。

代表性论文 (https://orcid.org/0000-0002-0076-2561)：
1. shaohua chen, shu fen tan, harpreet singh, liang liu, mathieu etienne, pooi see lee*. functionalized mxene films with substantially improved low‐voltage actuation. adv. mater. 2024, 2307045.
2. shaohua chen, jing hao ciou, fei yu, jian chen, jian lv, pooi see lee*. molecular-level methylcellulose/mxene hybrids with greatly enhanced electrochemical actuation. adv. mater. 2022, 34, 2200660.
3. shaohua chen, runzhang xu, jiaman liu, xiaolong zou, qiu ling, feiyu kang, liu bilu*, hui-ming cheng*. simultaneous production and functionalization of boron nitride nanosheets by sugar-assisted mechanochemical exfoliation. adv. mater. 2019, 31, 1804810.
4. shaohua chen, ling qiu*, hui-ming cheng*. carbon-based fibers for advanced electrochemical energy storage devices. chem. rev., 2020,120, 2811-2878.
5. shaohua chen, wujun ma, yanhua cheng, zhe weng, bin sun, lu wang, wenping chen, feng li, meifang zhu*, hui-ming cheng*. scalable non-liquid-crystal spinning of locally aligned graphene fibers for high-performance wearable supercapacitors. nano energy, 2015, 15, 642-653.
6.shaohua chen, wujun ma, hengxue xiang, yanhua cheng, shengyuan yang, wei weng, meifang zhu*. conductive, tough, hydrophilic poly (vinyl alcohol)/graphene hybrid fibers for wearable supercapacitors. j. power sources. 2016, 319, 271-280.
7.shaohua chen# (共一), matthew wei ming tan#, xuefei gong, pooi see lee*. low‐voltage soft actuators for interactive human╟machine interfaces. adv. intell. syst. 2022, 4, 2100075.
8.liuxiang zhan#, shaohua chen# (共一), yangyang xin, jian lv, hongbo fu, dace gao, feng jiang, xinran zhou, ni wang, pooi see lee. dual-responsive mxene-functionalized wool yarn artificial muscles. advanced science. 2024, doi: 10.1002/advs.202402196.
9.xiaoyu guo#, shaohua chen# (共一), wei church poh, juntong chen, fan jiang, matthew wei ming tan, pooi see lee*. solid‐state and flexible black electrochromic devices enabled by ni‐cu salts based organohydrogel electrolytes. adv. mater. interfaces. 2023, 2300061.
10.wujun ma#, shaohua chen# (共一), shengyuan yang, wenping chen, yanhua cheng, yiwei guo, shengjie peng, seeram ramakrishna, meifang zhu*. hierarchical mno2 nanowire/graphene hybrid fibers with excellent electrochemical performance for flexible solid-state supercapacitors. j. power sources. 2016, 306, 481-488.
11. hao xu, baofu ding*, youan xu, ziyang huang, dahai wei, shaohua chen, tianshu lan, yikun pan, hui-ming cheng*, bilu liu*. magnetically tunable and stable deep-ultraviolet birefringent optics using two-dimensional hexagonal boron nitride. nature nanotechnol. 2022, 17, 1091-1096.
12.wujun ma, shaohua chen, shengyuan yang, wenping chen, wei weng, yanhua cheng, meifang zhu*. flexible all-solid-state asymmetric supercapacitor based on transition metal oxide nanorods/reduced graphene oxide hybrid fibers with high energy density. carbon. 2017, 113, 151-158.
13.zeng linchao, shaohua chen, liu minsu, cheng hui-ming, ling qiu*. integrated paper-based flexible li-ion batteries made by a rod coating method. acs appl. mater. interfaces. 2019, 11, 46776-46782.
14. wujun ma, shaohua chen, shengyuan yang, wenping chen, wei weng, meifang zhu*. bottom-up fabrication of activated carbon fiber for all-solid-state supercapacitor with excellent electrochemical performance. acs appl. mater. interfaces. 2016, 8, 23, 14622╟14627.
15.wujun ma, shaohua chen, shengyuan yang, meifang zhu*. hierarchically porous carbon black/graphene hybrid fibers for high performance flexible supercapacitors. rsc adv. 2016, 6, 50112-50118.
16. bhattacharyya a., shaohua chen, meifang zhu*. graphene reinforced ultra high molecular weight polyethylene with improved tensile strength and creep resistance properties. express polym. lett. 2014, 8, 74-84.
17.fei yu, ciou jing-hao, shaohua chen, poh wei church, jian chen, juntong chen, kongcharoen haruethai, jian lv, dace gao, pooi see lee*. ionic covalent organic framework based electrolyte for fast-response ultra-low voltage electrochemical actuators. nat. commun. 2022, 13, 390.
18. wenting wu, wei church poh, jian lv, shaohua chen, dace gao, fei yu, hui wang, huajing fang, hong wang, pooi see lee*. self‐powered and light‐adaptable stretchable electrochromic display. adv. energy mater. 2023, 13, 2204103.
19. yicong zhou, lanshu xu, minsu liu, zheng qi, wenbo wang, jiuyi zhu, shaohua chen, kuang yu, yang su, baofu ding, ling qiu* , hui-ming cheng*. viscous solvent-assisted planetary ball milling for the scalable production of large ultrathin two-dimensional materials. acs nano. 2022, 16, 10179╟10187.
20. jian lv, gurunathan thangavel, yangyang xin, dace gao, wei church poh, shaohua chen, pooi see lee. printed sustainable elastomeric conductor for soft electronics. nature commun. 2023, 6,14, 7132.

二、硕士招生要求
1. 第一志愿为中山大学，专业背景为材料、化学、化工、能源、纺织、电子等方向。
2. 积极、主动、勤奋、自律，有好奇心、责任心、事业心、细致心和耐心。
3. 对本研究组方向有浓厚兴趣，有志于开发新材料、新技术、新器件、新应用。
请感兴趣的考生将简历、考试分数、大学成绩单等信息发送至chenshaohua@mail.sysu.edu.cn，并在4月1日12点前完成报名（详阅https://sofe.sysu.edu.cn/zh-hans/article/320）。

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