蒋淑兰

蒋淑兰，四川邻水人，教授，硕士/博士生导师，“地大学者”青年拔尖人才，中国机械工程学会和微米纳米技术学会高级会员。1988年生，2011年获西南大学工学学士学位，2015年获华中科技大学工学博士学位。2015年至2020年在西南交通大学工作，2018年至2019年在美国常春藤盟校哥伦比亚大学从事博士后研究。2020年调入bat365在线平台登录（武汉）bat365在线平台登录。近年来主持国家自然科学基金面上和青年项目各1项；主持其他省部级、横向、GF横向科研项目多项。在Sensors and Actuators B: Chemical、Analytical Chemistry、Journal of Power Sources、Composite Structures和 Nanoscale等期刊发表SCI论文40余篇，其中第一或通讯作者发表SCI论文30篇，已授权发明专利7项，研究成果被谷歌学术引用1000余次。担任Sensors and Actuators A: Physical, Sensors and Actuators B: Chemical和 Physical Chemistry Chemical Physics等期刊审稿人和教育部学位中心论文评审专家。指导2名硕士生获得教学实验室开放基金项目，1名研究生获得国家奖学金和1名研究生获太合创新奖学金，1名研究生获校科报会一等奖。

联系方式：jiangshulan@cug.edu.cn 办公室：教二楼319

主要经历：

2020.09-至今 bat365在线平台登录，bat365在线平台登录，特任教授

2018.11-2019.11 哥伦比亚大学，机械工程系，博士后

2015.07-2020.09  西南交通大学，机械工程学院，讲师/副研究员

2011.09-2015.06 华中科技大学，机械电子工程，工学博士

2007.09-2011.07  西南大学，机械设计制造及其自动化，工学学士

研究方向：

（1）先进制造技术：针对高端医疗器械，利用智能3D打印、光刻和纳米压印等智能制造方法开发新型微流控系统和X射线源器件；针对航空航天装备、汽车和海洋装备等结构的界面失效和服役性能等不足，研究结构轻量化设计和增强增韧技术。

（2）智能检测及层析成像研究：针对航空航天装备结构损伤和可视化应用需求，研究工业过程智能传感与仪器、多模态过程层析成像、多相流过程测试建模等。

（3）装备优化及智能控制：针对航空航天中含能材料制造的分散和团聚问题和设备稳定性问题，研究和开发高端声频振动分散装备及其稳定性智能控制。

招生信息：

热烈欢迎对先进制造、智能检测及层析成像和装备优化及智能控制等方向感兴趣，具有良好专业基础与实践动手能力的硕士生和博士生加入课题组。课题组将提供良好的科研条件，并提供一对一指导，支持参加国内国际学术会议，推荐双一流985院校攻读博士学位或推荐出国留学攻读博士学位或联合培养。

科研项目：

（1）湖北省面上项目，2023.12-2025.12，主持

（2）企业横向，2022.11-2024.12，主持

（3）国家其他部委纵向，2023.10-2026.06，参与

（3）国家自然科学基金面上项目，2018.01-2022.12，主持

（3）国家自然科学基金青年项目，2017.01-2019.12，主持

（4）青年拔尖高层次人才科研启动经费，2020.10-2023.10，主持

（5）企业横向，2021.05-2022.5，主持

（6）GF横向，2022.06-2023.12，主持

（7）GF横向，2020.10-2022.12，参研

部分代表性论文:

[1] Shulan Jiang, Ruyi Hu, Xuefeng Liu, Yanyan Cui, Yiru Ren, Hongyong Jiang*. Hierarchical microstructure design of CFRP/Al interface with ZnO-nanostructures and modified resin pre-coating: nano-mechanical interlocking. Composite Structures 322 (2023) 117429.

[2] Zeliang Hou, Xingyue Liu, Guojun Wen, Shulan Jiang*. Enhancing the photoelectric performance of the self-powered all vapor-deposited CsPbCl₃ ultraviolet photodetectors by a novel cadmium-doping strategy and heterojunction engineering. Solar Energy Materials and Solar Cells 251 (2023) 112175.

[3] Shulan Jiang, Li Xia, Hao Ma, Tingting Yang, Linmao Qian*. pH and temperature dual-responsive hydrogel actuator with bidirectional bending behavior and ultra large bending angle. European Polymer Journal 197 (2023) 112296.

[4] Shulan Jiang, Zeliang Hou,Xin Zheng, Qian Wu, Xiaoqi Yang, Wuqiong Cai, Ying Yi, Siyi Cheng, Guojun Wena and Xingyue Liu*. Ultrafast self-powered CsPbCl₃ ultraviolet photodetectors with choline chloride for surface passivation and charge transport regulation. Journal of Materials Chemistry C, 2023,11, 5667.

[5] Shulan Jiang, Xiaolin Yin, Jinxuan Bai, Bingjun Yu, Linmao Qian*. Fabrication of ultraviolet/thermal-sensitive PMMA/PDMS wrinkle structures and the demonstration as smart optical diffusers. Ceramics International 49 (2023) 10787-10794.

[6] Shulan Jiang, Ao Zhang, Xiaobin Zhan*, Hongyong Jiang. Surface microtexturing design, laser-etching and adhesive failure of aluminum alloy single-lap-joint: Experiment and simulation. Thin-Walled Structures 193 (2023) 111237.

[7] Hongyong Jiang, Yuan Yang, Xuefeng Liu, Shulan Jiang*, Yiru Ren. High-efficient improvement in flexural properties of carbon/Kevlar-fiber hybrid composites by CNT-toughening only between xenogeneic fiber-layers. Thin-Walled Structures 190 (2023) 110984.

[8] Shulan Jiang*, Qian Chen, Jianbin Lin, Guanglan Liao, Tielin Shi, Linmao Qian. Thermal stress-induced fabrication of carbon micro/nanostructures and the application in high-performance enzyme-free glucose sensors. Sensors and Actuators B: Chemical, 345, 2021, 130364.

[9] Shulan Jiang*, Yong Tan, Yong Peng, Jiang Zhao. Tunable Optical Diffusers Based on the UV/Ozone-assisted self-wrinkling of thermal-cured polymer films. Sensors 2021, 21(17), 5820.

[10] Yong Peng, Shulan Jiang*, Li Xia, Xiaolin Yin, Bingjun Yu, Linmao Qian. Direct ink writing combined with metal-assisted chemical etching of microchannels for the microfluidic system applications, Sensors and Actuators A: Physical, 315 (2020) 112320.

[11] Yong Peng, Fangshang Zhong, Linmao Qian, Shulan Jiang*. Effects of ultraviolet/ozone irradiation on glassy-like carbon film for the bioMEMS applications. Applied Surface Science, 533 (2020) 147443.

[12] Shulan Jiang*, Feng Wang, Xianhua Tan, Jianbin Lin, Guanglan Liao, Zirong Tang, Tielin Shi, Linmao Qian. Fabrication of MnO₂/carbon micro/nanostructures based on Carbon-MEMS technique on stainless steel substrate for supercapacitive microelectrodes. Electrochimica Acta 303 (2019) 323-328.

[13] Shulan Jiang, Tielin Shi, Xiaobin Zhan, Hu Long, Shuang Xi, Hao Hu, and Zirong Tang*. High-performance all-solid-state flexible supercapacitors based on two-step activated carbon cloth. Journal of Power Sources, 2014, 272: 16-23.

[14] Shulan Jiang, Tielin Shi, Dan Liu, Hu Long, Shuang Xi, Fengshun Wu, Xiaoping Li, Qi Xia and Zirong Tang*. Integration of MnO₂ thin film and carbon nanotubes to three-dimensional carbon microelectrodes for electrochemical microcapacitors. Journal of Power Sources, 2014, 262: 494-500.

[15] Shulan Jiang, Tielin Shi, Hu Long, Yongming Sun, Wei Zhou and Zirong Tang*. High-performance binder-free supercapacitor electrode by direct growth of cobalt-manganese composite oxide nanostructures on nickel foam, Nanoscale Research Letters, 2014, 9:492.

[16] Shulan Jiang, Tielin Shi, Xiaobin Zhan, Shuang Xi, Hu Long, Bo Gong, Junjie Li, Siyi Cheng, Yuanyuan Huang and Zirong Tang*. Scalable fabrication of carbon-based MEMS/NEMS and their applications: a review. Journal of Micromechanics and Microengineering. 2015, 25: 113001.

[17] Shulan Jiang, Tielin Shi, Yang Gao, Hu Long, Shuang Xi and Zirong Tang*. Fabrication of 3D micro/nano dual–scale carbon array and its demonstration as microelectrodes in supercapacitors. Journal of Micromechanics and Microengineering, 2014, 24: 045001.

[18] Shulan Jiang, Tielin Shi, Xiaobin Zhan, Yuanyuan Huang, Zirong Tang*. Superior electrochemical performance of carbon cloth electrode-based supercapacitors through surface activation and nitrogen doping. Ionics, 2016, 22:1881-1890.

[19] Shulan Jiang*, Siyi Cheng, Yuanyuan Huang, Tielin Shi, Zirong Tang. High performance wire-shaped supercapacitive electrodes based onactivated carbon fibers core/manganese dioxide shell structures. Ceramics International, 2017, 43: 7916-7921.

[20] Yong Peng, Shulan Jiang*, Yong Tan, Hongbo Wang, Lei Wu, Linmao Qian. The formation mechanism of nondefective silicon micropatterns fabricated by scratching assisted electrochemical etching. ECS Journal of Solid State Science and Technology 8（2019）P464-P471.

发明专利：

[1] 蒋淑兰，彭勇，钱林茂，夏莉，一种新型多功能预应力柔性气动机器人及其加工方法，ZL.202010151190.2

[2] 蒋淑兰，任晔炜，钱林茂，彭勇，夏莉，尹晓麟，一种柔性主动式微混合器件集成系统及制备方法，202010299928.X

[3] 蒋淑兰，余丙军，钱林茂，韩京辉，钟方尚，王丰，一种制备硅微纳分级结构的新方法，ZL. 201611160207.0

[4] 蒋淑兰，王丰，钱林茂，武韩强，余丙军，基于机械刻划与金属催化刻蚀的硅微/纳结构制备方法， 201710450186.4

[5] 蒋淑兰，余丙军，钱林茂，王丰，一种具有内孔的碳基微纳分级结构阵列及其制备方法， 201611006293.X

[6] 蒋淑兰，钱林茂，彭勇，余丙军，基于电化学摩擦诱导的微纳加工方法， 201811054774.7

[7] 雷宇，蒋淑兰，一种转动式摩擦发电机，201910822529.4

[8] 汤自荣，蒋淑兰，史铁林，夏奇，高阳，龙胡，习爽，一种三维跨尺度碳电极阵列结构及其制备方法， ZL201310617991.3

[9] 汤自荣，蒋淑兰，史铁林，夏奇，高阳，郑辉，一种集成加热部件的微型气敏传感器的制作工艺， ZL201310403030.2

[10] 钱林茂，汪红波，蒋淑兰，李斌，余丙军，陈磊，基于微悬臂投影的光电式气敏传感器， ZL. 201610392191.X

[11] 钱林茂，汪红波，蒋淑兰，李斌，余丙军，陈磊，基于微悬臂投影的光电式加速度传感器， ZL. 201610382181.8