bob体育官网,bob体育最新版下载地址

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bob体育官网-bob体育最新版下载地址

王超

邮箱:cwang@uestc.edu.cn
电话:028-61831325
系别:微电子与固体电子系
职称:教授
教师个人主页:http://faculty.uestc.edu.cn/wangchao
教师简介
个人简介:
四川省百人计划入选者,四川省学术和技术带头人后备人选。研究方向包括:非接触式光学监测仪器制造(光电探测技术、精密测量技术、光路设计、电路设计等)、半导体材料的生长与应用基础研究(热电材料、电池等)。近五年承担部省级以上科研项目7项,包括国家重大科研仪器研制项目和国家重点研发计划子课题。目前已申请国内外发明专利 61项,授权27项;发表Nano Energy、PRB等SCI论文48篇,被SCI论文引用500余次,总引用700余次;获得2016年度四川省科技进步一等奖(第一完成人)和2017年四川省青年科技奖。联系方式:028-61831325,cwang@uestc.edu.cn,QQ 2051202091,成都市高新西区西源大道2006号bob体育最新版下载地址清水河校区研究院大楼326A。
教育经历:
博士2004-2008 英国牛津大学 材料科学
硕士2000-2003 中国清华大学与中国科学院半导体所联合培养 机械材料加工
学士1996-2000 中国清华大学 机械工程
工作经历:
助教2000-2003中国清华大学机械系
副高级工程师2003-2004 中国上海中芯国际
助教2004-2008英国英国牛津大学材料系
访问科学家2008-2009 中国清华大学大学机械系
高级工程师/中国地区技术经理2008-2012 美国应用材料公司
教授/博导2012至今中国bob体育最新版下载地址
主持或参加科研项目:
1.国家自然科学基金重大科研仪器研制项目,高精度可变焦航空发动机涡轮叶片温度监测仪器研制,  61727818,2018/01-2022/12,在研,主持。
2.国家重点研发计划“深地资源勘查开采”重点专项子课题,超多通道能谱数据实时传输与快速存取技术研究,2017/7-2021/6,200万,在研,主持。
3.国家自然科学基金面上基金项目,Cu(2-y)X微观结构对热电输运的影响机理研究及性能优化,51672037,2017/01-2020/12,在研,主持。
4.四川省青年科技基金项目,Cu2-xS基纳米热电材料的界面原位表征及输运机理研究,2016JQ0022,2016/03-2019/03,在研,主持。
5.四川省科技支撑计划项目,MOCVD外延生长的在线拉曼光谱表征方法研究及实现,2014GZ0151,2015/01-2016/12,在研,主持。
获奖情况:
1.2016年度四川省科技进步奖技术发明类一等奖(第一完成人): 高精度多参数第三代半导体外延生长的在线监测关键技术
2.四川省百人计划入选者
3.四川省杰出青年学术技术带头人
4.四川省学术和技术带头人后备人选
邀请报告:
1. Chao Wang, “A straightforward chemical precipitation method to prepare high performance copper sulfide and tin sulfide thermoelectric materials”. 第二届中英高峰合作暨先进功能材料论坛. 中外杰出专家主题演讲,成都,9月12日,2017.
2. 王超,“III族氮化物半导体外延生长在线监测技术研究”. 分会邀请报告,中国物理学会2017年秋季学术会议,成都,9月7-10日,2017.
3. 王超,“III族氮化物半导体外延生长在线监测技术研究”. 分会邀请报告,第二届全国宽禁带半导体学术会议,西宁,8月10-12日,2017.
4. 王超,“超精密加工中的动态切削温度监测方法研究”. 分会邀请报告,Light Conference,Changchun,17-18 July,2017.
5. 王超,“沉淀法制备新型热电材料的新探索”. 分会邀请报告,中国材料大会2017暨银川国际材料周,银川,7月8-12日,2017.

学术成果
在国际期刊发表SCI 文章50 余篇,国内外授权专利50多项。

代表性论文:

1.Wang C*, Tian H, Jiang J, et al. Facile Synthesis of Different Morphologies of Cu2SnS3 for High-Performance Supercapacitors[J]. ACS Applied Materials & Interfaces, 2017.

2.Chao Wang*, Ting Zhou et.al Multicolor tunable luminescence based on Tb3+/Eu3+ doping through a facile hydrothermal route. ACS Appl. Mater. Interfaces, 2017.

3.Guoqiang Zou, Chao Wang,Xiaobo Ji* et.al.Controllable Interlayer Spacing of Sulfur-Doped GraphiticCarbon Nanosheets for Fast Sodium-Ion Batteries. small 2017.

4.Zhengming Yang,# Xue Ning,# Chao Wang,Jie Xiong* et.al,Universal laser fabrication of deepUV plasmonic metal@carbon core@shell nanoparticles,Advanced Functional Materials, 2017.

5.Zhaodong Huang,Chao Wang,Xiaobo Ji* et.al. LayerTunable Phosphorene Modulated by the CationInsertion Rate as a Sodium-Storage Anode. Adv. Mater. 2017

6.Shen Xing,Tianyu Kong, Junsheng Yu*,and Chao Wang. Realization of Performance Enhancement in TernaryPolymer Solar Cells by Broad Absorption, EfficientEnergy Transfer, and Balanced ChargeCarrier.IEEE Journal of Photovoltaics, 2017.

7.Peng Ge, Hongshuai Hou, Xiaoqing Qiu*, Qing Zeng, Chao Wang*, and Xiaobo Ji. High-rate sodium ion anodes assisted by N-doped carbon sheets.Sustainable Energy Fuels, 2017.

8.Miao Yu,Ting Zhou, Chao Wang*, Haibo Zeng*and Jie Xiong*. Universal liquidphase laser fabrication of various nanometals encapsulated by ultrathin carbon shells for deepUV plasmonics. Nanoscale, 2017.

9.Xiaojiao,Chao Wang*,Daojiang Gao* et.al.Fabrication, microstructures, luminescent and magnetic properties of LiFe(WO4)2 microcrystals.Journal of Materials Science: Materials in Electronics, 2017.

10.Chao Wang*, Yide Chen,Ping Yang*et.al.Improved thermoelectric properties of SnS synthesized by chemical precipitation.RSC Adv., 2017.

11.Q.Zeng,D.J. Gao*, C. Wang*. Highpurity helical carbon nanotubes with enhanced electrochemical properties for supercapacitors. RSC Adv.2017.

12.S. X. Wu,C. Wang*et.al. Chemical Precipitation Synthesis and Thermoelcetric Properties of Copper Sulfide. Journal of Electronic Materials, 46, 2017.

13.B. Yuan,C. Wang*, Q. Y. Zhang* et.al. Effects of Sb Substitution by Sn on the ThermoelectricProperties of ZrCoSb. Journal of Electronic Materials, 2016.

14.J. Shuai, H.Y. Geng,C. Wang,ChingWu Chu*, Z.F. Ren. Higher thermoelectric performance of Zintl phases (Eu0.5Yb0.5)1-xCaxMg2Bi2 by band engineering and strain fluctuation. PNAS, 2016.

15.Tianyu Lei, Chao Wang,Jie Xiong et.al,Multi-functional layered WS2 Nanosheets for Enhancing Lithium-Sulfur Battery Performance.Advanced Energy Materials, 2016.

16.Y. Yang*, Wei Shi*, C. Wang* et.al, Electrochemical Exfoliation of Graphite into Nitrogen-doped Graphene in Glycine Solution and its Energy Storage Properties. Electrochimica Acta, 2016.

17.Jun Chen,Chao Wang,Xiaobo Ji* et.al, Black Anatase Titania with Ultrafast SodiumStorage Performances Stimulated by Oxygen Vacancies. ACS Appl. Mate.Interfaces, 2016.

18.Guoqiang Zou, Jun Chen, Yan Zhang, Chao Wang, Zhaodong Huang, Simin Li, Hanxiao Liao, Jufeng Wang, Xiaobo Ji, Carbon-coated rutile titanium dioxide derived from titaniummetal organic framework with enhanced sodium storage behavior. Journal of Power Sources, 2016.

19.Zhou. AJ ,Wang. C,P, Mueller. E et.al, Impact of the film thickness and substrate on the thermopower measurement of thermoelectric films by the potential-Seebeck microprobe (PSM). Applied Thermal Engineering, 2016.

20.Tianyu Kong,Chao Wang et.al, Improving the Efficiency of Bulk Heterojunction Polymer Solar Cells Via Binary-Solvent Treatment. IEEE Journal of Photovoltaics,2017.

21.ihang Liu,Chao Wang, Zhifeng Ren et.al, Understanding and manipulating the intrinsic point defect in α-MgAgSb for higher thermoelectric performance. Journal of Materials Chemistry A,2016.

22.Huili Liu,Chao Wang,Lidong Chen et.al, Reduction of thermal conductivity by low energy multiEinstein optic modes. Journal of Materiomics,2016.

23.YANG Ping,WANG Chao* et.al Effect of the SPDT on Surface Temperature and Stress of KDP Crystal. Journal of Synthetic Crystals, 45(4):896-900, 2016.

24.WANG Chao, ZHANG Ze.zhan et.al InSitu Monitoring Technology for Growth of III Nitrides by MetalOrganic Chemical Vapor Deposition. Journal of University of Electronic Science and Technology of China,2016.

25.WANG Chao*, ZHANG Rui1 et.al Research Progress of New Thermoelectric Materials, 2017.

26.X. Jian,C. Wang* et.al, Enhancement in photoluminescence performance of carbon-decorated T-ZnO, Nanotechnology, 2015.

27.L. Yin, C. Wang* et.al, Luminescent properties of a novel Al10O3N8:Eu2+phosphor by a mechanochemical activation route, Optical Materials, 2015.

28.X. Yang, C. Wang,X. Ji* et.al, Anatase TiO2 nanocubes for fast and durable sodium ion battery anodes, Journal of Materials Chemistry A,2015.

29.Yu Cao,Chao Wang*,Wanli Zhang* et.al. Synthesis of highpurity CuO nanoleaves and analysis of their ethanol gas sensing properties. RSC Advances,2015.

30.C. Wang*,J. Jiang et.al,Influence of two-tier structuring on the performance of black silicon-based MSM photodetectors,J. Mater. Sci.: MaterElectron,2014.

31.B. Sun*, L. Zhao*, C. Wang*, Tunable Fano Resonance in E?Shape Plasmonic Nanocavities, Journal of Physical Chemistry C, 2014.

32.L. Yin, G. Chen, C. Wang* et.al Tunable luminescence of CeAl11O18based phosphors by replacement of (AlO)(+) by (SiN)(+) and co-doping with Eu, ECS Journal of Solid State Science and Technology,2014.

33.X. Jian, Y. Cao, C. Wang* et.al High-purity Cu nanocrystal synthesis by a dynamic decomposition method, Nanoscale Research Letters,2014.

34.X. Jian, C. Wang*,Controllable preparation of Ni nanoparticles for catalysis of coiled carbon fibers growth, Nanoscale Research Letters,2014.

35.S.G.Wang*,C.Wang et.al,Interface characterization of epitaxial Fe/MgO/Fe magnetic tunnel junctions, Journal ofNanoscience and Nanotechnology,2012.

36.C.Wang*,A.Kohn,S.G.Wang et.al,Interlayer diffusion studies of a Laves phase exchange spring superlattice, Journal of Physics-Condensed Matter,2011.

37.C.Wang,A.Kohn*,R.C.C. Ward* et.al,Structural characterization of interfaces in epitaxial Fe/MgO/Fe magnetic tunnel junctions by transmission electron microscopy, Physical ReviewB,2010.

38.G.X.Du,S.G.Wang*,C.Wang et.al,Spindependent tunneling spectroscopy for interface characterization of epitaxial e/MgO/Fe magnetic tunnel junctions,Physical Review B,2010.

39.C.R.Seabourne*,C.Wang,et.al,Analysis ofcomputational EELS modelling results for MgO-based Systems,Ultramicroscopy,2010.

40.R. Fan*,C. Wang et.al, The influence of interfacial roughness on the coherence of structure and magnetic coupling across barriers in Fe/MgO multilayers, Journal of Physics-Condensed Matter.

41.S.G.Wang*,A.Kohn,C.Wang et.al.,Exchangebias in epitaxial Fe/Ir0.2Mn0.8 bilayers grown on MgO (001), Journal of Physics D-Applied Physics,2009.

42.Q.L.Ma,S.G.Wang*,C.Wang et.al,Temperature dependence of resistance in epitaxial Fe/MgO/Fe magnetic tunnel junctions, Applied Physics Letters,2009.

43.S.G.Wang*,C.Wang et.al,Structural characterization and temperature dependence of tunnel magnetoresistance in epitaxial Fe/MgO/Fe junctions, IEEE Transactions on Magnetics,2008.

44.S.G.Wang*,C.Wang et.al,Temperature dependence of giant tunnel magnetoresistance in epitaxial Fe/MgO/Femagnetic tunnel junctions,Physics Review B,78/18/180411,2008.

45.A.Kohn*,C.Wang,S.G.Wang,R.C.C.Ward,Magnetization reversal processes in epitaxial Co/Fe bi-layers grown on MgO(001), Journal of Applied Physics,2008.

46.C.Wang*,S.G.Wang et.al,Transmission ElectronMicroscopy study of the Fe(001)|MgO(001) Interface for Magnetic Tunnel Junctions,IEEE Transactions on Magnetics,2007.

47.S.G.Wang*,C.Wang et.al,Structural and magnetic studies of Co layer in epitaxial grown Fe/Co bi-layers,J. Appl. Phys, 2007.

48.S.G.Wang*,C.Wang et.al,Evidence for FeO formation at the Fe/MgO interface in epitaxial TMR structure by x-ray photoelectron spectroscopy, Journal of Magnetism and Magnetic Materials,2007.

49.Y.Z.Huang*,S.G.Wang,C.Wanget.al,Selforganization of nanoneedles in Fe/GaAs (001) epitaxial thin film, Applied Physics Letters,2006.

50.C.Wang*,D.M.Zhuang et.al,IV characteristics of tantalum oxide film and the effect of defects on its electrical properties,ThinSolid Films,2004.

51.Wang Chao et.al Growth of Tantalum Pentoxide Films and Its Current Voltage Characteristics, Vacuum Scienceand Technology(China),2003.

52.WANG Chao*, ZHUANGDaming, IV Characteristics of high dielectric constant tantalum oxide films, Chinese Journal of Materials Research,2003.



授权专利:

1. 王超,陈磊等,MOCVD外延片表面温度测量的紫外测温方法及装置,中国,ZL,201510559816.2,2015-09-06

2. 王超,徐豹等,一种纳米二氧化锡气敏材料的制备方法,中国,ZL,201510725990.X,2015-10-30

3. 王超,伍思昕等,一种Cu2-xS/CNT复合热电材料及其制备方法,中国,ZL,201610142086.0,2016-03-14

4. 王超,贺纪桦等,一种多孔纳米SnO2薄膜气敏材料的制备方法,中国,ZL,201610137835.0,2016-03-11

5. 王超,陈乙德等,一种锡硫化合物热电材料的制备方法,中国,ZL,201610410062.9,2016-06-12

6. 王超,夏俊峰等,一种利用温差和太阳能发电的手电筒,中国,ZL,201610412381.3,2016-06-13

7. 王超,田瀚卿等,一种可自发充电的助听器,中国,ZL,201610423462.3,2016-06-14

8. 王超,张晨贵等,一种利用卫星外表面温度梯度进行发电的方法,中国,ZL,201610827913.X,2016-09-18

9. 王超,张蕊等,一种利用海底热液的能量收集装置,中国,ZL,201611108081.2,2016-12-06

10. 王超,张蕊等,一种利用海底热液能量的海底发电系统,中国,ZL,201611112597.4,2016-12-06

11. 王超,张泽展等,一种用于金属微小型试样高温实验的小型加热装置,中国,ZL,201611158696.6,2016-12-14

12 .王超,张泽展等,一种针对用于金属微型试样高温实验的小型加热装置,中国,ZL,201621376381.4,2016-12-14

13. 王超,王飞等,一种基于红外测温原理的钛起燃试验中温度测量系统,中国,ZL,201710003251.9,2017-01-04

14. 王超,胡俊等,一种基于双轴调节的涡轮叶片表面温度测量,中国,ZL,201710014851.5,2017-01-10

15. 王超,牛夷等,一种铁硫化合物热电材料的制备方法,中国,ZL,201710007219.8,2017-01-05

16. 王超,胡俊等,一种涡轮叶片表面温度测量装置,中国,ZL,201710014488.7,2017-01-10

17. 王超,张晨贵等,一种针对下肢骨折病人康复训练的足底压力鞋垫,中国,ZL,201710222854.8,2017-04-07

18. 王超,夏俊峰等,热电材料氮化铬及其制备方法,中国,ZL,201710247968.8,2017-04-17

19. 王超,曾青等,一种用于纽扣电池的半导体制冷片双向温度控制装置,中国,ZL,201710164900.3,2017-03-20

20. 王超,田瀚卿等,一种可回收低级废热的电池,中国,ZL,201710330662.9,2017-05-11

21. 王超,杨雄峰等,一种可双向温度控制的车载电池系统,中国,ZL,201710334645.2,2017-05-12

22. 姜晶,张晨贵等,一种自发电多功能的智能鞋垫,中国,ZL,201710233289.5,2017-04-11

23. 王超,张泽展等,一种航空发动机涡轮叶片温度监测装置,中国,ZL,201710413059.7,2017-06-05

24. 王超,胡俊等,一种基于三波段辐射光测量涡轮叶片温度及发射率的方法,中国,ZL,201710455116.8,2017-06-16

25. 王超,杨洋等,一种用于涡轮叶片表面光线采集的装置,中国,ZL,201710464605.X,2017-06-19

26. 王超,杨洋等,一种对涡轮叶片表面红外测温的可调焦测温装置,中国,ZL,201710522155.5,2017-06-30

27. 王超,张泽展等,一种用于航空发动机涡轮叶片温度监测的集成光路系统,中国,ZL,201710524151.0,2017-06-30

28. 王超,段英等,一种准确采集涡轮叶片三波段辐射信息的方法,中国,ZL,201710523299.2,2017-06-30

29. 王超,曾青等,一种太赫兹波段离轴三反射镜系统及其装调方法,中国,ZL 201410690280.3,2016-12-07

30. 王超,简贤等,一种基于热分解法制备多孔铁粉的方法,中国,ZL 201410337735.3,2016-08-17

31. 王超,唐辉等,一种镍电极表面制备三氧化铝涂层的方法,中国,ZL201310687991.0,2015-10-21

32. 王超,唐辉等,一种镍电极表面制备三氧化铝和氧化镍陶瓷涂层的方法,中国,ZL201310689993.3,2015-08-26

33. 王超,唐辉等,一种镍氢电池镍电极表面制备氧化钛涂层的方法,中国,ZL201310690581.1,2016-02-10

34. 王超,陈磊等,一种薄膜外延生长在线实时表征装置,中国,ZL201310606556.0,2015-08-26

35. 王超,尹良君等,一种稀土掺杂氮化铝基蓝色荧光粉的制备方法,中国,ZL201310473558.7,2015-06-24

36. 王超,陈国璋等,一种超细、高纯γ-AlON透明陶瓷粉末的制备方法,中国,ZL201310472981.5,2014-12-24

37. 王超,尹良君等,一种蓝光紫外连续可调的铝酸盐荧光粉及其制备方法,中国,ZL201310472985.3,2014-08-13

38. 王超,唐辉,一种基于等离子体的钢铁制品除锈抛光方法,中国,ZL 201310467235.7,2016-03-23

39. 简贤,王超等,氧化铜纳米材料的制备方法,中国,ZL 201410257872.6,2016-04-20

40. 唐辉,王超等,一种钛酸镁粉体的合成方法,中国,ZL 201410050422.X,2016-01-06

41. 唐辉,王超等,一种铅板栅表面原位生长三氧化铝和氧化铅陶瓷涂层的方法,中国,ZL 201310689711.X,2016-01-20

42. 唐辉,王超等,一种在铅合金表面制备氧化钛陶瓷涂层的方法,中国,ZL 201310687935.7,2016-01-06

43. 尹良君,王超等,一种高纯、高亮度AlN:Eu2+蓝色荧光粉的制备方法,中国,ZL 201310539952.6,2014-12-24

44. 尹良君,王超等,Eu2+掺杂Y4Si2O7N2蓝色荧光粉及制备方法,中国,ZL 201410605722.X,2016-05-18

45. 姜晶,王超等,一种在铅合金表面生长三氧化铝涂层的方法,中国,ZL 201310690598.7,2016-04-06

46. 王润顺,王超等,去除光刻膜的技术,中国,ZL 200510030309.6, 2009-11-11

47. Wang,Runshun,Chao Wang et.al ,Techniques for removal of photolithographic film,美国,11/243,883,2009-06-21

48. 张弓,王超等,绒面氧化锌透明导电薄膜及其制备方法,中国,ZL 03137254.6,2006-08-30

49. 庄大明,王超等,七层膜结构环保节能玻璃,中国,ZL 01268177.6,2003-05-14

50. 尹良君,王超等,一种碳包覆的BAM:Eu2+蓝色荧光粉及其制备方法,中国,ZL 201410608399.1,2016-03-30

科学研究
研究方向:
1.热电材料及器件的研发
2.锂离子电池正极材料,超级电容器和基于热力循环的热电转换电池
3.在线温度测量及高端设备仪器的研发
     

研究条件:
  团队拥有自己的清洁能源与材料装备中心实验室。实验室配有用于科学研究的多种设备,如真空碳管、烧结炉(高温可达2000℃)、微弧氧化设备、手套箱、CVD管式炉三台、球磨机等;并具有备多台测试  仪器:塞贝克热导率测试仪、电导率测试仪、荧光光谱仪、电化学工作站、摩擦磨损测试仪、化学气、相沉积监测系统、气敏传感器测试仪等。
 实验室拥有年轻认真的老师团队,和热情、专注、充满朝气的学生队伍。本团队坚持“以培养行业精 英人才为主”,积极为杰出人才提供平台与发展方向!近年来,实验室有成效的开展了一系列关于热 电材料和测温设备的研究,并取得很多高水平研究成果。团队近几年在国际期刊发表SCI文章50余篇,拥有国内外专利20多项,并参与中物院重点实验基金项目10余项。实验室与国内外产业界、高校同行 建立了良好的合作关系,愿与国内外同行专家建立更广泛坚实的合作!
       
教研室团队介绍: http://www.uestccmelab.icoc.cc/


主讲课程
招生方向:

     材料:半导体材料的生长与应用基础研究(热电材料、电池等)

     设备:非接触式光学监测仪器制造(光电探测技术、精密测量技术、光路设计、电路设计等)