一、招生信息:
学校:重庆工商大学
专业:工学->材料科学与工程->材料学
年级:2018
招生人数:3
招生状态:正在招生中
二、招生简介
郭威威简介: 博士(1984),副教授,硕导。主要研究方向为(1)半导体金属氧化物及硫化物材料; (2)有机无机杂化复合材料; (3)石墨烯及其复合材料的设计合成及基于此类材料的气体传感器的元器件构建。主要用于室内环境污染气体甲醛、苯系物的检测,有毒有害气体一氧化碳,氨气的检测;矿井中易燃易爆气体甲烷的检测;食品中腐败气体三已胺的检测;酒驾中酒精的检测;
本课题组招收2018年调剂研究生,材料科学与工程,应用化学,化学工程与工艺等相关方向,有意者发简历至gwctbu@163.com,或者加qq(313868746),微信guo13594393696。
重庆工商大学读研期间基本待遇:每个月可获得国家补助,表现优秀的研究生可参评国家奖学金(2万元)。学校对硕士研究生设立了学业奖学金,奖学金覆盖率达到90%。除学校补助外根据读研期间表现课题组发放论文津贴。
基金支持:
1.国家自然科学基金青年基金
2.重庆市自然科学基金青年基金
3.重庆市教委基金
平台:重庆市催化与新材料重点实验室
代表性论文:
(1) Weiwei Guo, Design of Gas Sensor Based on Fe-Doped ZnO Nanosheet-Spheres for Low Concentration of Formaldehyde Detection, Journal of The Electrochemical Society, 2016,163 (9) B517-B525
(2) WeiWei Guo ,Hollow and Porous ZnSnO3 Gas Sensor for Ethanol Gas Detection,Journal of The Electrochemical Society,2016,163 (5):B131-B139
(3) Weiwei Guo ,ZhongchangWang,Composite of ZnO spheres and functionalized SnO2 nanofibers with an enhanced ethanol gassensing properties,Materials Letters,2016,169:246-249
(4) Wei Wei Guo,ZnO nanosheets assembled different hierarchical structures and their gas sensing properties,Journal of Materials Science: Materials in Electronics,2016,27 (7):1-9
(5) Weiwei Guo, One-pot synthesis of urchin-like ZnO nanostructure and its enhanced acetone gas sensing properties. Journal of Materials Science: Materials in Electronics,.2016, 29:5301–5308
(6) Weiwei Guo, Xiaodan Li,Huafeng Qin,Zhongchang Wang, PEG-20000 assisted hydrothermal synthesis of hierarchical ZnO flowers: Structure, growth and gas sensor properties,Physica E,2015,73:163-168
(7) Weiwei Guo ,Min Fu,Chongzhi Zhai,ZhongchangWang ,Hydrothermal synthesis and gas-sensing properties of ultrathin hexagonal ZnO nanosheets,Ceramics International,2014,40:2295-2298
(8) Weiwei Guo ,Tianmo Liu,Weijie Yu,Rong Sun,Yong Chen,Wen Zeng,Zhongchang Wang,Rapid Selective Detection of Formaldehyde by Hollow ZnSnO3 Nanocages.,Physica E,2013,48:46-52
(9) Weiwei Guo ,Tianmo Liu,Jinxing Wang,Weijie Yu,Rong Sun,Yong Chen,Shahid Hussai,Xianghe Peng,Zhongchang Wang,Hierarchical ZnO porousmicrospheres and their gas-sensing properties,Ceramics International,2013,39:5919-5924。
(10) Weiwei Guo ,Tianmo Liu,Zhongping Gou,Wen Zeng,Yong Chen,Zhongchang Wang(*),Hydrothermal Synthesis of Ultrathin ZnO Nanosheetsand their Gas-Sensing Properties,Journal of Materials Science: Materials in Electronics,2013,24:1764-1769。
(11) Weiwei Guo ,Tianmo Liu,Hejing Zhang,Rong Sun,Yong Chen,Wen Zeng,Zhongchang Wang. Gas-sensing performance enhancement in ZnO nanostructures by hierarchical morphology,Sensors and Actuators B: Chemical,2012,166-167:492-499
(12) Weiwei Guo,Tianmo Liu ,Rong Sun,Yong Chen,Wen Zeng,Zhongchang Wang,Hollow, Porous, and Yttrium Functionalized ZnO Nanospheres with Enhanced Gas-SensingPerformances,Sensors and Actuators B:Chemical,2012,173:53-62
(13) Weiwei Guo ,Tianmo Liu,Rong Sun,Yong Chen,Wen Zeng,Zhongchang
Wang,Synthesisof unique ZnO/SnO2 core–shell structural microspheres and their gas-sensing properties,Materials Letters,2012,89:5-8。
(14) Weiwei Guo ,Tianmo Liu ,Long Huang,Hejing Zhang,Quan Zhou,Wen
Zeng,HMTassisted hydrothermal synthesis of various ZnO nanostructures: Structure,growth and gas sensor properties,Physica E: Low-dimensional Systems and Nanostructures.,2011,44:680-685。
(15) Weiwei Guo ,Tianmo Liu,Wen Zeng,Dejun Liu,Yong Chen,Zhongchang Wang,Gas-sensing property improvement of ZnO by hierarchical flower-like architectures,Materials Letters,2011,65:3384-3387
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