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个人简介

教授 机械与电子信息学院 性别:女 出生年月:1988年8月 民族:汉族 政治面貌:中共党员 籍贯:四川邻水 主要经历: 2020.09-至今 中国地质大学,机械与电子信息学院,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 招生信息: 热烈欢迎对微纳制造和自动化/智能化装备方向感兴趣的积极上进和乐观开朗的本科生和研究生加入课题组。 科研项目: (1)国家自然科学基金面上项目,多铁性复合材料在接触摩擦作用下的磁-电-弹多场耦合效应研究,主持 (2)国家自然科学基金青年项目,面向高性能微型锂离子电池的新型碳/硅微纳分级结构制造方法,主持 (3)核工业西南物理研究院,ITER辉光放电清洗三个永久的电极初步设计,参研 (4)国防横向,复合固体推进剂声共振混合技术研究,参研 (4)国家自然科学基金重大研究计划,面向微超级电容的高性能三维复合微纳电极规模化制造方法,参研 (5)国家自然科学基金面上项目,面向生物燃料电池应用的三维碳微纳集成结构规模化制造新方法,参研 (6)国家自然科学基金青年基金,基于表面纳米褶皱的微纳分级结构仿生制造工艺研究,参研 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,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

研究领域

(1)微纳制造及应用; (2)自动化/智能化装备

近期论文

查看导师新发文章 (温馨提示:请注意重名现象,建议点开原文通过作者单位确认)

[1] 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. [2] 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. [3] 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. [4] 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. [5] 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. [6] 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. [7] 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. [8] 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. [9] 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. [10] 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. [11] 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. [12] Shulan Jiang*, Tielin Shi, Zirong Tang, Shuang Xi. Cost-Effective Fabrication of Inner-Porous Micro/Nano Carbon Structures. Journal of nanoscience and nanotechnology, 2018, 18: 2089-2095. [13] Feng Wang, Shulan Jiang*, Jinghui Han, Guangran Guo, Bingjun Yu, Weiqing Yang, Linmao Qian. Facile and low-cost fabrication of uniform silicon micro/nanostructures by nanopitting-assisted wet chemical etching. Micro& Nano Letters, 2018. pp. 1–6, doi: 10.1049/mnl.2018.0185. [14] Shulan Jiang, Feng Wang, Hongbo Wang, Linmao Qian. Friction-induced fabrication of flexible supercapacitive microelectrodes. Journal of Physics: Conference Series, Volume 1052, conference 1. [15] Shaolei Wang, Chengxin Zhang, Yu Shu, Shulan Jiang, Qi Xia, Linjiang Chen, Shangbin Jin, Irshad Hussain, Andrew I Cooper, Bien Tan*. Layered microporous polymers by solvent knitting method, Science advances2017, 3 (3), e1602610. [16] Hu Long, Tielin Shi, Shulan Jiang, Shuang Xi, Rong Chen, Shiyuan Liu, Guanglan Liao and Zirong Tang*. Synthesis of a nanowire self-assembled hierarchical ZnCo2O4 shell/Ni current collector core as binder-free anodes for high-performance Li-ion batteries. Journal of Materials Chemistry A, 2014, 2: 3741-3748. [17] Hongbo Wang, Shulan Jiang, Lei Zhang, Bingjun Yu, Duoli Chen, Weiqing Yang* and Linmao Qian*. High-performance optical projection controllable ZnO nanorod arrays microweighing sensor, Nanoscale, 2018, 10, 4727.

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