太原理工大學（211+雙一流）信息與計算機學院 胡杰老師招...

butterfly-tyut

1. 本條調劑信息主要是針對，研究生報考專業為“0810 信息與通信工程 （信息與通信工程，通信與信息系統，信號與信息處理 ）”和“0809 電子科學與技術（微電子學與固體電子，電路與系統 ，物理電子）”類的考生；；非常歡迎交叉學科的同學：本科為：材料、化工專業，但是報考專業為： 0810和0809 的考生

1.個人簡介
   胡杰，博士，教授，碩士生導師。目前，太原理工大學信息與計算機學院工作。 2008年9月~2011年9月獲得歐盟獎學金的資助赴法國巴黎高師（Ecole Normale Supérieure de Paris）與巴黎第六大學（Université Pierre et Marie Curie）進行博士課題研究。2011年9月獲得巴黎高師物理化學專業博士學位，2011年9月作為“第四層次人才”被太原理工大學引進。近年來，作為項目負責人和參與人完成了國家自然基金、山西省重大專項、教育部博士點基金、中國博士后科學基金、山西省青年科學基金、山西省歸國留學基金、山西省歸國留學擇優資助等項目。目前在Sensors and Actuators B: Chemical，Materials Research Bulletin, RSC Advances, Journal of Materials Science, Langmuir、Nanotechnology， Lab on a chip.等刊物合作發表SCI論文50余篇。
小組在讀研究生10名，其中博士生1名，碩士生9名；已畢業碩士9名，協助指導博士5名，(其中2013年碩士畢業生公派留學到瑞典皇家理工學院攻讀博士，2015年博士公派到日本九州大學, 2016年碩士畢業生留學到比利時根特大學攻讀博士)；其中2013、2014、2015級碩博研究生共4人次分別獲得“研究生國家獎學金”。

2. 目前研究工作包括：
[1] 微納傳感器研究：本方向在對新型納米敏感材料可控制備及有序構筑的基礎上，結合微納加工技術，開發出性能優越的微納氣體傳感器電子器件及系統，使其具有高靈敏度、高選擇性、高穩定性和高重現性，能夠實現對有毒有害，易燃易爆氣體的實時、快速地檢測。（重點：納米材料的制備與合成、微納加工工藝、氣體傳感器結構的加工、傳感器的性能測試）
[2] 新型石墨烯及其復合材料性能研究: 本方向通過對石墨烯及其復合材料的研究,制備具有極低的缺陷密度、優異的導電性能和較高比表面積的三維多孔石墨烯復合材料。通過對其功能化修飾，研制出基于石墨烯復合材料的低成本、高靈敏度和高選擇性的傳感器。（重點：納米材料的制備、傳感器結構的設計、傳感系統的測試）

3.項目情況：
[1] 國家自然基金：基于納米懸臂梁陣列的單細胞力學特性生物傳感器研究 （2013，項目負責人）；
[2] 中國博士后基金：基于納米柱陣列的細胞表面機械力傳感器研究（2013，項目負責人）；
[3] 教育部博士點基金：納米懸臂梁陣列在細胞生物傳感器中的應用研究 （2012，項目負責人）；
[4] 山西省青年基金：基于微流控技術的ZnO納米線陣列氣體傳感器研究（2013，項目負責人）；
[5] 山西省面上基金：基于微接觸印刷技術的ZnO納米陣列制備、改性及其氣敏特性研究 （2014，項目負責人）；
[6] 山西省歸國留學基金：ZnO納米線陣列的可控生長及其在氣體傳感器上的應用研究（2015，項目負責人）
[7] 山西省高等學校科技創新項目：基于微流控技術的氧化鋅納米線陣列氣體傳感器研究（2016，項目負責人）；
參與項目：
[1] 國家“863”：具有環境控制功能的典型微納傳感器多參數批量測試設備研發與應用（主要參與人）；
[2] 國家自然基金：面向多組份氣體定量檢測的ZnO納米線陣列可控制備方法研究（主要參與人）；
[3] 山西省重大專項：煤礦重大水災超前探測和場景三維可視化關鍵技術研究（主要參與人）；
[4] 橫向課題項目：礦井水害超前探測及多信息融合處理預警系統實現（子項目負責人）；
研究生已獲批項目：
[1] ZnO納米纖維的制備及其氣敏特性研究, 山西省研究生優秀創新項目
[2] ZnO納米線圖案化制備與超疏水特性研究, 山西省研究生優秀創新項目
[3]基于微流控的ZnO納米線陣列氣敏傳感器研究, 山西省研究生優秀創新項目
[4]貴金屬摻雜ZnO納米線的可控制備及其氣敏性能研究，太原理工大學研究生創新基金
[5] ZnO超疏水自清潔防護薄膜的研究及合成，太原理工大學研究生創新基金

4. 發表的論文：
[1] Jie Hu*, Yongjiao Sun, Yan Xue, Meng Zhang, Pengwei Li, Wendong Zhang, Serge Zhuiykov, Yong Chen, Highly sensitive and ultra-fast hydrogen gas sensor with ppb level detection limit based on Ce-doped In2O3 hollow spheres, Sensors and Actuators B: Chemical, 257: 124-135, 2018
[2] Ying Wang, ZihanWei, Pengwei Li, Gang Li, Kun Lian, Wendong Zhang, Serge Zhuiykov, Jie Hu*. Pr6O11-functionalized SnO2 hierarchical nano-architectures for highly efficient, stable and selective acetone detection. IEEE Sensors Journal,18(3):933-940,2018
[3] Jie Hu*, Jun Zhang, Zhenting Zhao, Jie Liu, Jianfang Shi, Gang Li, Pengwei Li, Wendong Zhang, Kun Lian, Serge Zhuiykov, Synthesis and Electrochemical Properties of Reduced Graphene Oxide/Molybdenum Disulphide heterostructures for Highly Sensitive Nitrite Detection, Ionics, 24(2) : 577–587, 2018
[4] Jie Hu*, Jie Yang, Wenda Wang, Yan Xue, Yongjiao Sun, Pengwei Li, Kun Lian, Wendong Zhang, Lin Chen , Jian Shi, Yong Chen,Synthesis and Gas sensing Properties of Hierarchical NiO/SnO2 Structures toward ppb-level Acetone Detection, Materials Research Bulletin, 102C:294-303, 2018
[5] Zihan Wei, Zhenyin Hai, Mohammad Karbalaei Akbari, Jie Hu and Serge Zhuiykov, Atomic layer deposition-developed nanoscale two-dimensional <alpha>-MoO3 windows excellent hydrogen peroxide electrochemical sensing capabilities, Sensors & Actuators: B. Chemical, 262: 334-344, 2018.
[6] Jie Hu*, Yanfei Liang,Yongjiao Sun, Zhenting Zhao, Meng Zhang, Pengwei Li, Wendong Zhang, Yong Chen, Serge Zhuiykov, Highly sensitive NO2 detection on ppb level by devices based on Pd-loaded In2O3 hierarchical microstructures, Sensors and Actuators B: Chemical, 252,116–126 2017
[7] Jie Hu*, Zhenting Zhao, Jun Zhang, Gang Li, Pengwei Li, Wendong Zhang, Kun Lian, Synthesis of palladium nanoparticle modified reduced graphene oxide and multi-walled carbon nanotube hybrid structures for electrochemical applications, Applied Surface Science, 396: 523-529, 2017
[8] Jie Hu*, Yongjiao Sun, Xiu Wang, Lin Chen, Wengdong Zhang and Yong Chen, Synthesis and gas sensing properties of molybdenum oxide modified tungsten oxide microstructures for ppb-level hydrogen sulphide detection，RSC Advances, 7, 28542-28547, 2017
[9] Jie Hu*, Ying Wang, Wenda Wang, Yan Xue, Pengwei Li, Kun Lian, Lin Chen, Wendong Zhang, Serge Zhuiykov, Enhancement of the acetone sensing capabilities to ppb detection level by Fe-doped 3-dimensional SnO2 hierarchical microstructures fabricated via hydrothermal method, Journal of Materials Science,52:11554–11568, 2017
[10] Jie Hu*, Xiu Wang, Meng Zhang, Yongjiao Sun, Pengwei Li, Wendong Zhang, Kun Lian, Lin Chen and Yong Chen, Synthesis and characterization of flower-like MoO3/In2O3 microstructures for highly sensitive ethanol detection. RSC Advances, 7(38): 23478-23485, 2017
[11] Ying Wang, Zhenting Zhao, Yongjiao Sun, Pengwei Li, Jianlong Ji, Yong Chen, Wendong Zhang, Jie Hu*, Fabrication and gas sensing properties of Au-loaded SnO2 compositenanoparticles for highly sensitive hydrogen detection, Sensors and Actuators B: Chemical, 240, 664–673, 2017
[12] Yongjiao Sun, Lin Chen, Ying Wang, Zhenting Zhao, Pengwei Li, Wendong Zhang, Yamin Leprince-Wang, and Jie Hu*, Synthesis of MoO3/WO3 composite nanostructures for highly sensitive ethanol and acetone detection, Journal of Materials Science, 52(3): 1561-1572, 2017
[13] Zhenting Zhao, Jie Liu, Wenda Wang, Jun Zhang, Gang Li, Jianqi Liu, Kun Lian, Jie Hu*, Serge Zhuiykov, Ag Functionalized Molybdenum Disulfide Hybrid Nanostructures for Selective and Sensitive Amperometric Hydrogen Peroxide Detection, Int. J. Electrochem. Sci., 12，8761-8776，2017
[14] Yongjiao Sun, Zhenting Zhao, Gang Li, Pengwei Li, Wendong Zhang, Zhitao Han, Kun Lian, Jie Hu* Synthesis and characterization of Ag@zno nanostructures for photocatalytic degradation of Rhodamine B: Influence of calcination temperature and Ag content, Applied Physics A: Materials Science & Processing, 123(2): 116. 2017
[15] Xiongtu Zhou, Rong Peng, Chunfeng Ren, Lei Sun, Jie Hu, Tailiang Guo, Yongai Zhang, Zhixian Lin, Fabrication and field emission properties of ZnO/Al2O3 nanocomposite tetrapods. Journal of Alloys and Compounds, 695, 1863-1869, 2017
[16] Zhenyin Hai, Mohammad Karbalaei Akbari, Zihan Wei, Chenyang Xue, Hongyan Xu, Jie Hu, Serge Zhuiykov, Nano-thickness dependence of supercapacitor performance of the ALD-fabricated two-dimensional WO3, Electrochimica Acta 246: 625-633, 2017
[17] Zhenyin Hai, Mohammad Karbalaei Akbari, Zihan Wei, Chenyang Xue, Hongyan Xu, Jie Hu, Lachlan Hyde, Serge Zhuiykov, TiO2 nanoparticles-functionalized two-dimensional WO3 for high-performance supercapacitors developed by facile two-step ALD process, Materials Today Communications 12: 55-62, 2017.
[18] Zhenyin Hai, Mohammad Karbalaei Akbari, Chenyang Xue, Hongyan Xu, Eduardo Solano, Christophe Detavernier, Jie Hu, Serge Zhuiykov, Atomically-thin WO3/TiO2 heterojunction for supercapacitor electrodes developed by atomic layer deposition, Composites Communications 5: 31-35, 2017.
[19] Mohammad Karbalaei Akbari, Zhenyin Hai, Zihan Wei, Jie Hu, Serge Zhuiykov, Wafer-scale two-dimensional Au-TiO2 bilayer films for photocatalytic degradation of Palmitic acid under UV and visible light illumination, Materials Research Bulletin 95: 380-391, 2017
[20] Mohammad Karbalaei Akbari, Zhenyin Hai, Stephen Depuydt, Eugene Kats, Jie Hu, Serge Zhuiykov, Highly sensitive, fast-responding, and stable photodetector based on ALD-developed monolayer TiO2, IEEE Transactions on Nanotechnology 16, no. 5: 880-887, 2017
[21] Zihan Wei, Zhenyin Hai, Mohammad Karbalaei Akbari, Jie Hu, Lachlan Hyde, Stephen Depuydt, Francis Verpoort, and Serge Zhuiykov, Ultrasensitive, sustainable, and selective electrochemical hydrazine detection by ALD-developed two-dimensional WO3, ChemElectroChem, DOI: 10.1002/celc.201700968, 2017
[22] Luo, Cuixian, Xia, Mengjie, Wang, Yiping,  Li, Pengwei, Jie Hu, Li, Gang, Jiang, Huabei, Zhang, Zhang, Wendong, A Multiple Vibration Modes Separation Technique Based on Element Energy Harvester Array: Frequency, Bandwidth Adjustment, and Electrical Characterization, 17(19), 6378-6384, IEEE Sensors Journal, 2017.
[23] Jie Hu*, Zhenting Zhao, Yongjiao Sun, Ying Wang, Pengwei Li, Wendong Zhang, Kun Lian, Controllable Synthesis of Branched Hierarchical ZnO Nanorod Arrays for Highly Sensitive Hydrazine Detection, Applied Surface Science, 364: 434-441, 2016
[24] Jie Hu*, Fanqin Gao, Zhenting Zhao, Shengbo Sang, Pengwei Li, Wendong Zhang, Xiongtu Zhou and Yong Chen, Synthesis and characterization of Cobalt-doped ZnO microstructures for methane gas sensing, Applied Surface Science,  363: 181-188, 2016
[25] Zhenting Zhao, Yongjiao Sun, Pengwei Li, Wendong Zhang, Kun Lian, Jie Hu*, Yong Chen, Preparation and characterization of AuNPs/CNTs-ErGO electrochemical sensors for highly sensitive detection of hydrazine[J]. Talanta, 158: 283-291, 2016
[26] Lin Chen, Xiaoyan He,Yanfei Liang,Yongjiao Sun, Zhengting Zhao, and Jie Hu*, Synthesis and gas sensing properties of palladium-doped indium oxide microstructures for enhanced hydrogen detection, Journal of Materials Science: Materials in Electronics: 1-8, 2016
[27] Yongjiao Sun, Zihan Wei, Wendong Zhang, Pengwei Li, Kun Lian and Jie Hu*, Synthesis of brush-like ZnO nanowires and their enhanced gas-sensing properties, Journal of Materials Science, 1-9. 2016
[28] Jie Hu*, Fanqin Gao, Shengbo Sang, Pengwei Li, Xiao Deng,  Wendong Zhang,  Yong Chen and Kun Lian, Optimization of Pd content in ZnO microstructures for high performance gas detection, Journal of Materials Science,50, 4, 1935-1942, 2015
[29] Yongjiao Sun, Zhenting Zhao, Pengwei Li, Gang Li, Yong Chen, Wendong Zhang, Jie Hu*, Er-doped ZnO nanofibers for high sensibility detection of ethanol, Applied Surface Science, 356, 73–80. 2015
[30] Zhenting Zhao, Ying Wang, Pengwei Li, Shengbo Sang, Wendong Zhang, Jie Hu* and Kun Lian, A Highly-Sensitive Electrochemical Sensor Based on Cu/Cu2O@Carbon Nanocomposite Structures for Hydrazine Detection, Analytical Methods, 7(21): 9040-9046. 2015
[31] Jie Hu*, Yongjiao Sun, Wendong Zhang, Fanqin Gao, Pengwei Li, Dong Jiang and Yong Chen, Fabrication of hierarchical structures with ZnO nanowires on micropillars by UV soft imprinting and hydrothermal growth for a controlled morphology and wettability, Applied Surface Science, 317, 545-551, 2014
[32] Jie Hu*, Deng Xiao, Sang Sheng-Bo, Li Peng-Wei, Li Gang and Zhang Wen-Dong, Fabrication and characteristics of ZnO nanowires array gas sensor based on microfluidics, Acta Phys. Sin,  63, 20 207102, 2014
[33] Zhenting Zhao, Yongjiao Suna, Pengwei Li, Shengbo Sang, Wendong Zhang, Jie Hu* and Kun Lian, A Sensitive Hydrazine Electrochemical Sensor Based on Zinc Oxide Nano-Wires, Journal of The Electrochemical Society , 161, 6, B157-B162, 2014
[34] Yang Wang, Guocai Li, Yakun Xu and Jie Hu*, An Algorithm for Mining of Association Rules for the Information Communication Network Alarms Based on Swarm Intelligence, Mathematical Problems in Engineering, 1-14, 2014
[35] Wendong Zhang, Xuge Fan, Shengbo Sang, Pengwei Li, Gang Li, Yongjiao Sun and Jie Hu*, Fabrication and characterization of silicon nanostructures based on metal-assisted chemical etching, The Korean Journal of Chemical Engineering, 31, 62-67, 2014
[36] Xiao Deng, Shengbo Sang, Pengwei Li, Gang Li, Fanqin Gao, Yongjiao Sun, Wendong Zhang and Jie Hu*, Preparation, Characterization, and Mechanistic Understanding of Pd-Decorated ZnO Nanowires for Ethanol Sensing, Journal of nanomaterials, 1-8, 2013
[37] 位子涵，張文棟，胡杰*等，Mn摻雜花狀ZnO的合成及其光催化特性研究,功能材料，9081-9085,2015
[38] 劉杰，張文棟，胡杰*等，石墨烯/銀納米顆粒復合材料的制備及其對雙氧水的電化學檢測，材料導報, 30(24)11-15, 2016

5.專利情況：
[1] 胡杰，孫永嬌，趙振廷，李朋偉，李剛，桑勝波，張文棟，一種鉬摻雜氧化鎢氣敏材料的制備方法，2017.03.08，中國，專利號：ZL * .9
[2] 胡杰，王瑩，趙振廷，冀健龍，李朋偉，張文棟，連崑，一種檢測氫的金負載氧化錫納米材料的制備方法，2016.12.21，中國，專利號：ZL 201710006716.1
[3] 胡杰，王瑩，王影，王文達，薛炎，李朋偉，李剛， 連崑，張文棟，一種檢測低濃度丙酮氣體的錫基納米復合材料的制備方法，2017.07.14，中國，申請號：ZL 201710202237.1
[4] 胡杰，劉杰，王文達，趙振廷，張俊，連崑，李朋偉，李剛，張文棟，一種銀摻雜二硫化鉬復合材料混合液的制備方法，中國，申請號：CN201710269781.8
[5] 張文棟，胡杰，李國才，桑勝波，李朋偉，李剛，瞬變電磁儀和礦井水文地質勘探方法，，2014.04.15中國，申請號：CN2014101502467
[6] 張文棟，桑勝波，李朋偉，胡杰，李剛，孫永嬌，鄧霄，用于高速公路路基內部壓力檢測的壓阻式傳感器，2015.02.25，中國，專利號：ZL 20121037466.9
[7] 李朋偉，王艷芬，胡杰，李剛，劉穎，桑勝波，張文棟，線性多自由度低頻振動能量采集器拾振結構，2016.06.15，中國，專利號：ZL 201410119050.1
[8] 李朋偉，羅翠線，胡杰，李剛，劉穎，桑勝波，張文棟，一種多懸臂梁壓電換能器電路的設計方法，2015.12.02，中國，專利號：ZL 201410005945.2
[9] 李剛，郭麗芳，李朋偉，胡杰，張文棟，桑勝波，郭興軍，基于靜電斥力的電容式射頻MEMS開關，2016.04.13，中國，專利號：ZL 2014102625267

6. 對碩士研究生要求：
（1）具有腳踏實地，刻苦專研的精神；（2） 具有銳意進取，認真負責的態度；（3）性格開朗、善于溝通和較強的團隊合作意識；（4）具有較好的英語聽、說、讀、寫能力；（5）通過英語六級者優先。
7.   歡迎郵件咨詢:  Email: 275209535 @qq.com; (準備混碩士畢業證的同學,請忽略此條調劑信息.)

butterfly-tyut

歡迎一志愿和調劑的同學來郵來電咨詢，協助你準備復試的相關事宜，傾心為你服務！

于蘿卜

已發郵件，請您查收

來自Android客戶端

butterfly-tyut

于蘿卜 發表于 2018-3-19 15:48
已發郵件，請您查收

郵件已回，請查收，謝謝！

連三丁

是不是計算機專業就不能報啊

來自Android客戶端

butterfly-tyut

連三丁 發表于 2018-3-20 20:33
是不是計算機專業就不能報啊

目前，信息和計算機兩個學院剛合并，計算機專業的調劑，建議咨詢原計算機學院的老師，祝順利