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长期招收联合培养博士研究生,招聘博士后

已有 655 次阅读 2019-12-30 18:45 |系统分类:科研笔记

研究方向:

柔性传感与系统集成技术:

1. 柔性/智能电子器件:柔性晶体管、柔性光电探测器、柔性/智能传感器等。
2. 柔性芯片储能器件:微型超级电容器、锂电池等。
3. 柔性多功能集成系统:可穿戴器件,人工智能。


岗位需求:攻读硕士、博士研究生学位研究生/联合培养研究生;博士后。


要求:

攻读研究生学位者:获得理科、工科的本科或硕士学位,通过全国硕士、博士研究生入学考试(待遇按照半导体所研究生规定。另外根据个人表现年底有津贴。)

联合培养博士研究生:获得研究生本人导师同意,并与半导体所签订至少两年的联合培养协议。

博士后:获得电子、物理、材料、化学、光电或者相关专业的博士学位,有丰富的纳米材料制备和表征经验,或者有熟练的微纳加工技术,能够独立的开展研究(待遇按照半导体所规定。年底视个人能力有额外绩效津贴。)。

联系方式:gzshen@semi.ac.cn;电话:010-82304151。


【指导老师简介】

   沈国震,男,1976年生。1999年于安徽师范大学获理学学士学位。2003年于中国科学技术大学获理学博士学位。2004-2009年分别在韩国(汉阳大学)、日本(日本国立材料研究所)、美国(南加州大学)从事纳米科技相关研究。2009.2-2013年任教于华中科技大学武汉光电国家实验室,任教授、博士生导师、能源光电子功能实验室主任。2013年至今任中国科学院半导体研究所半导体超晶格国家重点实验室研究员。2010年入选湖北省首批“百人计划”特聘专家。2011年入选教育部“新世纪优秀人才计划”。2015年获茅以升科学技术奖-北京青年科技奖。2016年获得国家杰出青年基金资助。2017年获中国材料研究学会科学技术一等奖,2017年获北京市科学技术二等奖。

   2001年至今以第一/通讯作者身份在Chem. Soc. Rev.; J. Am. Chem. Soc.; Angew. Chem.;Adv. Mater.;Nano Lett.; ACS Nano等国际SCI刊物发表论文200余篇,获引用超过17000次,论文H指数为71。

   担任J. Mater. Chem. A;J. Mater. Chem. C;Sci. Adv. Mater.等期刊客座编辑(Guest Editor)Nanoscale Research Letters(SCI收录)、The Scientific World Journal(SCI收录)、Progress in Natural Science: Materials International (SCI收录)等十余种国际期刊副主编、编辑等职。

   

【科研经费】

国家杰出青年科学基金、基金委基础科学中心项目等。


【近期部分代表性论文】


2019年:

  1. Grain boundary-induced drastic sensing performance enhancement of polycrystalline microwire printed gas sensors, Lili Wang, Shuai Chen, Wei Li, Kang Wang, Zheng Lou,* and Guozhen Shen*, Advanced Materials, 2019, 21, 1804583.

  2. Reviews of wearable healthcare systems: materials, devices, and system integration,Zheng Lou, Lili Wang, Kai Jiang, Zhongming Wei, and Guozhen Shen, Materials Science and Engineering R: Reports,2019, in press.

  3. Recent advances of fiber supercapacitors: materials, device configurations and applications, Di Chen, Kai Jiang,* Tingting Huang, and Guozhen Shen,* Advanced Materials, 2019, in press.

  4. Wearable sweat monitoring system with integrated micro-supercapacitors, Yao Lu, Kai Jiang,* Di Chen,* and Guozhen Shen,* Nano Energy, 2019, 58, 624.

  5. MoS2-OH bilayer mediated growth of inch-sized monolayer MoS2 on arbitrary substrates, Juntong Zhu, Hao Xu, Guifu Zou,* Wan Zhang, Ruiqing Chai, Jinho Choi, Jiang Wu,* Huiyun Liu, Guozhen Shen, and Hongyou Fan,* Journal of the American Chemical Society, 2019, in press.

  6. Programmable three-dimensional advanced materials based on nanostructures as building blocks for flexible sensors, Zheng Lou, Lili Wang, Kai Jiang, and Guozhen Shen,* Nano Today, 2019, in press.

  7. Mixed-valence-driven quasi-1D SnIISnIVS3 with highly polarization-sensitive UV-vis-NIR photoresponse, Huai Yang, Longfei Pan, Xiaoting Wang, Hui-Xiong Deng, Mianzeng Zhong, Ziqi Zhou, Zheng Lou, Guozhen Shen, and Zhongming Wei,* Advanced Functional Materials, 2019, in press.

  8. Bioinspired interlocked structure-induced high deformability for MXene/natural microcapsule-based flexible pressure sensors, Kang Wang, Zheng Lou, Lili Wang,* Lianjia Zhao, Dongyi Wang, Shufang Zhao, Wei Han, Kai Jiang, Guozhen Shen,* ACS Nano, 2019, in press.

  9. Flexible smart non-contact control systems with ultrasensitive humidity sensors, Juehan Yang, Ruilong Shi, Zheng Lou, Ruiqing Chai, Kai Jiang, Guozhen Shen,* Small, 2019, in press.

2018年:

  1. An artificial flexible visual memory system based on ultraviolet-motivated memristor, Shuai Chen, Zheng Lou, Di Chen,* and Guozhen Shen,* Advanced Materials, 2018, 30, 1705400.ESI全球高被引论文

  2. Flexible broadband image sensors with SnS quantum dots/Zn2SnO4 nanowires hybrid nanostructuresAdvanced Functional Materials, 2018, 18, 1705389.

  3. Plant-based modular building blocks for "green" electronic skins, Lili Wang, Zheng Lou*, Kai Jiang, and Guozhen Shen, Advanced Functional Materials, 2018, 18, 1804510.

  4. Device configurations and future prospects of flexible/stretchable lithium-ion batteries, Di Chen, Zheng Lou, Kai Jiang*, and Guozhen Shen,* Advanced Functional Materials, 2018, 18, 1805596.


2017年:

  1. New insights and perspectives into biological materials for flexible electronics, Lili Wang, Di Chen, Kai Jiang, and Guozhen Shen, Chemical Society Reviews, 2017, in press. (Review paper)

  2. ZnO quantum dots decorated Zn2SnO4 nanowire heterojunction photodetectors with drastic performance enhancement and flexible ultraviolet image sensors, Ludong Li, Leilei Gu, Zheng Lou, Zhiyong Fan,* and Guozhen Shen,* ACS Nano, 2017, 11, 4067-4076.

  3. Highly sensitive low-bandgap perovskite photodetectors with response from ultraviolet to the near-infrared region, Wenbin Wang, Dewei Zhao*, Fujun Zhang*, Ludong Li, Mingde Du, Changlei Wang, Yue Yu, Qianqian Huang, Miao Zhang, Lingliang Li, Jianli Miao, Zheng Lou, Guozhen Shen, Ying Fang, Yanfa Yan,* Advanced Functional Materials, 2017, in press.

  4. All rGO-on-PVDF-nanofibers based self-powered electronic skins, Yuanfei Ai, Zheng Lou,* Zhiming M. Wang, and Guozhen Shen,* Nano Energy, 2017, 35, 121-127.

  5. Ultrasensitive and ultraflexible e-skins with dual functionalities for wearable electronics, Zheng Lou, Shuai Chen, Lili Wang, Ruilong Shi, La Li, Kai Jiang,* Di Chen, and Guozhen Shen,* Nano Energy, 2017, 38, 28-35.

  6. Flexible planar concentric circular micro-supercapacitor arrays for wearable gas sensing application, La Li, Chengwei Fu, Zheng Lou, Shuai Chen, Wei Han,* Kai Jiang, Di Chen, and Guozhen Shen,* Nano Energy, 2017, in press.


2016年:

  1. Transition from diffusion-controlled intercalation into extrinsically pseudocapacitive charge storage of MoS2 by nanoscale heterostructuringQasim Mahmood, Sul Ki Park, Kideok D. Kwon, Sung-Jin Chang, Jing-Yong Hong, Guozhen Shen, Young Mee Jung, Tae Jung Park, Sung Woon Khang, Woo Sik Kim, Ho Seok Park,* and Jing Kong, Advanced Energy Materials, 2016, 6, 1501115.(内封面论文

  2. Flexible photodetectors based on one-dimensional inorganic nanostructures, Zheng Lou and Guozhen Shen,* Advanced Science, 2016, 3, 1500287. (邀请综述,内封面论文)

  3. Wafter scale phase-engineered 1T- and 2H-MoSe2/Mo core-shell 3D-hierarchical nanostructures toward efficient electrocatalytic hydrogen evolution reaction, Yindong Qu, Henry Medina, Sheng-Wen Wang, Yi-Chung Wang, Chia-Wei Chen, Teng-Yu Su, Arumugam Manikandan, Kuangye Wang, Yu-Chuan Shih, Je-Wei Chang, Hao-Chung Kuo, Chi-Yung Lee, Shih-Yuan Lu, Guozhen Shen, Zhiming M. Wang, and Yu-Lun Chueh*, Advanced Materials, 2016, 28, 9831-9838.

  4. Pursuing two-dimensional nanomaterials for flexible lithium-ion batteries, Bin Liu, Ji-Guang Zhang*, and Guozhen Shen,* Nano Today, 2016, 11, 82-97.

  5. Interlayer transition and infrared photodetection in atomatically thin type-II MoTe2/MoS2 van der Waals heterostructures, Kenan Zhang, Tianning Zhang, Guanghui Cheng, Tianxin Li, Shuxia Wang, Wei Wei, Xiao Zhou, Weiwei Yu, Yan Sun, Peng Wang, Dong Zhang, Changgan Zeng, Xingjun Wang, Weida Hu, Hong Jin Fan, Guozhen Shen,* Xin Chen,* Xiangfeng Duan,* Kai Chang, and Ning Dai, ACS Nano, 2016, 10, 3852-3858.

  6. Enhancing photoresponsivity of self-aligned MoS2 field-effect transistor by piezo-photoronic effect from GaN nanowire, Xingqiang Liu, Xiaonian Yang, Guoyun Gao, Zhenyu Yang, Haitao Liu, Qiang Li, Zheng Lou, Guozhen Shen, Lei Liao, Caofeng Pan,* and Zhong Lin Wang, ACS Nano, 2016, 10, 7451-7457.

  7. High-performance all polymer photovoltaic and photodetectors based on acceptor-acceptor type conjugated polymers, Xiaofen Wang, Lei Lv, Lingliang Li, Yusheng Chen, Kai Zhang, Haoran Chen, Jingsong Huang,* Guozhen Shen,* Zhou Yang, and Hui Huang, Advanced Functional Materials, 2016, 26, 6306-6315.

  8. An ultra-sensitive and rapid response speed graphene pressure sensors for electronic skins and health monitoring, Zheng Lou, Shuai Chen, Lili Wang, Kai Jiang,* and Guozhen Shen,* Nano Energy, 2016, 23, 7-14.


2015年

  1. Flexible electronics based on inorganic nanowires, Zhe Liu,+ Jing Xu,+ Di Chen and Guozhen Shen*, Chemical Society Reviews, 2015, 44, 161-192.(综述,背封面论文ESI全球高被引论文,ESI热点论文

  2. Flexible fiber energy storage and integrated devices: recent progress and perspectives, Xianfu Wang, Kai Jiang,* and Guozhen Shen,* Materials Today, 2015, 18, 265-272.(邀请综述)

  3. Self-induced uniaxial strain in MoS2 monolayers with local van der Waals-stacked interlayer interactions, Kenan Zhang, Shuhong Hu, Yun Zhang, Tianning Zhang, Xiaohao Zhou, Yan Sun, Tian-Xin Li, Hong Jin Fan, Guozhen Shen,* Xin Chen,* and Ning Dai,* ACS Nano, 2015, 9, 2704-2710.

  4. A flexible integrated photodetector system driven by on-chip microsupercapacitors, Jing Xu, and Guozhen Shen,* Nano Energy, 2015, 13, 131-139.

  5. Intercalation pseudo-capacitive TiNb2O7 @ carbon electrode for high-performance lithium ion hybrid electrochemical supercapacitors with ultrahigh energy density, Xianfu Wang and Guozhen Shen,* Nano Energy, 2015, 15, 104-115.




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