Micro-Nano Charactrizations: Technologies and Methods




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东南大学

研究生全英文课程项目申请表



课程名称及代码 微纳表征技术与方法【B006307

课 程 英 文 名 称Micro-Nano Charactrizations: Technologies and Methods

院(系、所)名称 电子科学与工程学院

一 级 学 科名称 电子科学与技术

校内课程负责人 孙立涛 教授

拟聘请校外专家 周维列 副教授(终身教授)

课程拟开课日期 2012611

申 报 日 期 2012110



东南大学研究生院制

1. 校内课程负责人情况

1-1

基本

信息

姓 名

孙立涛

性别



出生年月

1976年10月

最终学历

博士

职 称

教授

办公电话

83792632-8813

最终学位

博士

职 务

副院长

移动电话

13675156766

所属院(系、所)

电子科学与工程学院

E-mail

slt@seu.edu.cn

1-2

教学科研情况

1、近三年来讲授的主要研究生课程(含课程名称、学时数、听课学生总人数等);


2、近五年主持的代表性的研究课题(含课题名称、来源、年限、本人所起作用);

a. 外场作用下单体低维材料物性与结构演变关系的表征测量, 国家973项目子课题(2009CB623702), 2011-2013, 主持;

b. 基于皮米分辨透射电镜的5纳米以下三维纳通道跨尺度集成制造及力学性能表征, 国家973项目子课题(2011CB707601), 2011-2015, 主持;

c. 材料塑性成型的微观变形机理与方法研究, 教育部科学技术研究重大项目, 2012-2014, 主持;

d. GPa高压下单晶金属纳米材料的原位动态表征与塑性变形机理研究, 国家自然科学基金(51071044), 2011-2013, 主持;

e. 基于TEM的电子辐照诱导原子尺度纳米加工与动态表征, 教育部博士点基金--博导类(20100092110014), 2011-2013, 主持;

f. 教育部新世纪优秀人才支持计划, 教育部(NCEF-09-0293), 2010-2012, 主持;

g. 石墨烯的掺杂与热稳定性研究, 国家自然科学基金(60976003), 2010/1-2010/12, 主持;

h. 石墨壳中纳米晶的制备与在线电子显微学, 德国国家自然科学基金(BA 1884/4-1), 2005-2008, 参加;

i. 新型纳米/亚微米碳颗粒的系统研究, 日本能源与工业技术发展组织(04IT4), 2004-2007.


3、近五年以第一作者发表的代表性论文(含题目、刊物名称与时间);

Litao Sun, Arkady V. Krasheninnikov, Tommy Ahlgren,Kai Nordlund,and Florian Banhart "Plastic deformation of single nanometer-sized crystals" Phys. Rev. Lett. 101, 156101 (2008)

L. T. Sun, F. Banhart, A.V Krasheninnikov, J.A. Rodriguez-Manzo, M. Terrones, and P.M. Ajayan “Carbon Nanotubes as High-pressure Cylinders and Nano-extruders” Science 312, 1199 (2006)

L. T. Sun, F. Banhart, “Elastic deformation of nanometer-sized metal crystals in graphitic shells” Appl. Phys. Lett. 89, 263104 (2006)

L. T. Sun, F. Banhart, “Graphitic Onions as Reaction Cells on the Nanoscale” Appl. Phys. Lett. 88, 193121 (2006)


4、获得的代表性成果、表彰或奖励(含奖项名称、授予单位、署名次序、时间)

1. 2011年江苏省“333高层次人才培养工程”第二层次人员:中青年科技领军人才

2. 2010年度江苏省“高层次创新创业人才”引进计划人选


1-2

教学科研情况(续上表)

2009年度“江苏省十大青年科技之星”、“第十一届江苏省青年科技奖”

2009年教育部“新世纪优秀人才支持计划”

2004年中国科学院院长奖学金优秀奖

2000年国际压铸会议及展览会压铸件评比铜奖

Poster Prize on 2007 Conference of Material Science in Mainz, Germany


2、拟聘请校外专家情况(如果多名专家,可重复此表)(此部分内容将用于网上宣传或其它宣传资料中,专家介绍请全部用中文填写)

2-1

基本

信息

姓 名

周维列

性别



出生年月

1963年10月

国 籍

美国

E-mail

wzhou@uno.edu.cn

最终学历

博士

职称

副教授

办公电话

(504)280-1068

最终学位

博士

职务

主任

移动电话




工作单位

新奥尔良大学 先进材料研究院

2-2











周维列,男,美国,新奥尔良大学(University of New Orleans)副教授,博士。现任University of New Orleans先进材料研究院的电子显微实验室主任,主要从事先进功能纳米材料的制备、性能研究与功能器件的开发。具有丰富的电子显微学方面的课程教学实践经验。先后独立和合作发表包括J. Am. Chem. Soc.、Chem. Mater.、Appl. Phys. Lett在内的SCI论文130多篇,独立编撰微纳表征技术与方法方面的著作2册,参与相关论著章节编写6篇,是国际知名的电子显微学专家之一。


1、近三年来讲授的主要研究生课程(含课程名称、学时数、授课学校);

周维列教授在University of New Orleans主讲《Fundamental Electron Microscopy》、《Advanced Electron Microscopy》、《Physics for Scientists and Engineers II 》等大学课程。


2、近五年主持的具有代表性的科研课题(含课题名称、来源、年限、本人所起作用);

“Nanohelix RF Receivers Fabricated through In-situ E-beam Nanolithography” PI, $10,000, LA BoR NSF(2010)-PFUND-224, 01/01/10-09/31/10 (2010).

“Field Emission Electron Microscopy Study of Type II Core/Shell Nanowires for Photovoltaic Application”, PI, $10,000, LA EPSCoR NSF(2010)-Link-44, 07/10-10/10 (2010).

“Direct Growth of Type II Core/Shell Nanowire Array on Transparent Conducting Oxide (TCO) Substrate for Solar Cell Application”, Leading PI, $100,000 Petroleum Research Fund, 02/09-08/11 (2009).

“Nanoscale Engineering of Multiferroic Hybrid Composites for Micro- and Nano-scale Devices” co-PI, DARPA, 2.3M, 05/01/09-05/31/2011. (Charles J. O’Connor, PI) (2009).




2-2









(续上表)

3、近五年作为主要作者在国际主要刊物上发表的论文(含文章题目、发表时间、刊物名称);

“Iodine-Doped ZnO Nanocrystalline Aggregates for Improved Dye-Sensitized Solar Cells”, Y.Z. Zheng, X. Tao, Q, Hou, D.T. Wang, W.L. Zhou, J.F. Chen, Chem. Mater., 2011, 23 (1), 3-5 (Communication).

“Synthesis and Photovoltaic Effect of Vertically Aligned ZnO/ZnS Core/shell Nanowire Arrays”, K. Wang, J. J. Chen, Z. M. Zeng, J. Tarr, Weilie Zhou, Y. Zhang, Y. F. Yan, C. S. Jiang, J. Pern, and A. Mascarenhas, Appl. Phys. Lett. 96, 123105 (2010).(Corresponding Author).

“Synthesis of Vertically-aligned ZnO/ZnS Core/shell Nanowire Array for Photovoltaic Application” K. Wang, J. J. Chen, Z. M. Zeng, J. Tarr, Weilie Zhou, Y. Zhang, Y. Y. Yan, and A. Mascarenhas, Microscopy & Microanalysis 16 (suppl 2), 1370 (2010) (Corresponding Author).

“A Large Quantity Synthesis of Ultra-thin ZnO Nanobelts Induced from Stacking Faults” K. Wang, J. Chen, Y. Chen and Weilie Zhou, Journal of Nanoscience and Nanotechnology (2010), 10(3):2257-60 (Corresponding Author).

“Novel ZnO-Based Film with Double Light-Scattering Layers as Photoelectrodes for Enhanced Efficiency in Dye-Sensitized Solar Cells”, Y.Z. Zheng, X. Tao, L. X. Wang, H. Xu, Q. Hou, Weilie Zhou, and J.F. Chen, Chem. Mater., 22 (3), 928–934. (2010).

“One-Step Synthesis of Nearly Monodisperse Variable-Shaped In2O3 Nanocrystals in Long Chain Alcohol Solutions,” D. Caruntu, K. Yao, Z. Zhang, T. Austin, Weilie Zhou, C.J. O’Connor, J. Phys. Chem. C 114, 4875 (2010).

“Solution-Based Growth of Monodisperse Cube-Like BaTiO3 Colloidal Nanocrystals”, S. Adireddy, C. Lin, B. Cao, Weilie Zhou and G. Caruntu, Chem. Mater., 22 (6), 1946–1948 (2010).

“Ppb level H2S Detection at Room Temperature Based on Self-Assembled In2O3 Nanoparticles”, K. Yao, D. Caruntu, Z. Zeng, J. Chen, C. J. O’Connor, Weilie Zhou, J. Phys. Chem. C 113, 14812–14817 (2009) (Corresponding author).

Precise Voltage-contrast Image Assisted Positioning for In-situ E-beam Nanolithography for Nanodevice Fabrication with Suspended Nanowire Structures” R. Long, J. Chen, J. H. Lim, J. B. Wiley, Weilie Zhou, Nanotechnology 20, 285306 (2009) (Corresponding author).

“Growth of Monoclinic WO3 Nanowire Array for Highly Sensitive NO2 Detection”, B. Cao, J.J. Chen, X. Tang and Weilie Zhou, J. Mater. Chem., 19, 2323–2327 (2009) (Corresponding author).

“The Detection of H2S at Room Temperature by Using Individual Indium Oxide Nanowire Transistors” Z. Zeng, K. Wang, Z. Zhang, J. Chen and Weilie Zhou, Nanotechnology 20, 045503 (2009) (Corresponding author).

“Synthesis of Magnetic Porous Hollow Silica Nanotubes for Drug Delivery”, H. Ma, J. Tarr, M. A. DeCoster, J. McNamara, D. Caruntu, J. F. Chen,C. J. O’Connor, and Weilie Zhou, J. Appl. Physics 105, 07B309 (2009) (Corresponding author).

“Direct Growth of ZnO/ZnSe Highly Mismatched Type II Core/Shell Nanowire Array on Transparent Conducting Oxide (TCO) Substrate for Potential Solar Cell Application” K. Wang, J. Chen, Weilie Zhou, Y. Zhang, J. Pern, Y. Yan, A. Mascarenhas, Adv. Mater. 20, 3248-3253 (2008) (Corresponding author).

“H2S Detection by Vertically Aligned CuO Nanowire Array Sensors”, J. Chen, K. Wang, L. Hartman, and Weilie Zhou, J. Phys. Chem. C 112 (41), 16017–16021, (2008) (Corresponding author).

“Core-shell GaP/GaOx Nanowires and Nanochains and Their Transport Properties”Z. Zeng, Y. Li, J.J. Chen, and Weilie Zhou, J. Phys. Chem. C 112, 18588 (2008) (Corresponding author).

“Synthesis of Porous Magnetic Hollow Silica Nanospheres for Nanomedicine Application”, J. Zhou. W. Wu, D. Caruntu, M.H. Yu, A. Martin, J. F. Chen, C. J. O’Connor, and Weilie Zhou, J. Phys. Chem. C 111, 17473-17477 (2007). (Corresponding author).





2-2









(续上表)

Books

“Three-Dimensional Nanoarchitectures: Designing Next-Generation Devices” Zhou, Weilie; Wang, Zhong Lin (Eds.), Springer 2011, XVIII, 538 p. 359 illus., 238 in color, Hardcover (ISBN 978-1-4419-9821-7).

“Scanning Microscopy for Nanotechnology: Techniques and Applications”, Zhou, Weilie; Wang, Zhong Lin (Eds.), Springer 2007, XIV, 522 p. 399 illus., Hardcover (ISBN: 978-0-387-33325-0).


Book chapters

“Highly Sensitive and Selective Sensors Based on Three Dimensional Metal Oxide Nanostructures” Jiajun Chen, Kai Wang, Baobao Cao, Weilie Zhou (2009) “Three-Dimensional Nanoarchitectures: Designing Next-Generation Devices” (Eds.) Weilie Zhou and Zhong Lin Wang (Springer, New York, 2011) pp.154-180, 2011 (Invited)

Three Dimensional Photovoltaic Devices based on Vertically Aligned Nanowire Array” Kai Wang, Jiajun Chen Satish Ray, Weilie Zhou (2009) “Three-Dimensional Nanoarchitectures: Designing Next-Generation Devices” (Eds.) Weilie Zhou and Zhong Lin Wang (Springer, New York, 2011), pp-453-475 (Invited).


“Doped Transitional Metal for ZnO Nanomaterials”, Jiajun Chen, Jinging Liu, and Weilie Zhou; In Doped Nanomaterials and Nanodevices, Eds. Wei Chen, (American Scientific Publisher, 2010) Vol. 3, pp.135-147, (Invited).

“Fundamentals of Scanning Electron Microscopy” Weilie Zhou, Robert P. Apkarian, Zhong Lin Wang, and David Joy; In Advanced Scanning Electron Microscopy for Nanotechnology; Eds. Weilie Zhou and Zhong Lin Wang, (Springer, New York, 2007). pp.1-40 (Invited).

“E-beam Nanolithography Integrated with SEM” Joe Nabity, Lesely Anglin Compbell, Mo Zhu, and Weilie Zhou; In Advanced Scanning Electron Microscopy for Nanotechnology; Eds. Weilie Zhou and Zhong Lin Wang, (Springer, New York, 2007). pp. 120-151 (Invited).

“Nanomaterials Characterization” Weilie Zhou and Zhong Lin Wang; In Microsystems and Nanotechnology, eds Z.Y. Wang, Z. L. Wang, and L.W. Lin (Chinese Science Publishing Company), (2007) (in Chinese). pp.239-264. (Invited).


4、主要的学术研究成就或研究生教学培养成绩概况(含学术组织任职情况、荣誉称号、获学术奖励、学术成果等)。

Fellowship of Japan Society for the Promotion of Science (JSPS), Aug.3-21, JFCC, Nagoya, Japan, 2009


Silver Prizes of Electron Micrograph Competition of Japan Ceramics Society, Tokyo, Japan, 1995



3.课程概况


3-1.课程建设目标(课程目标、适用层次、预计听课人数、青年教师培训、是否引进教材、是否制作视听资料等方面)

本课程旨在让学生了解微纳尺度结构的各种表征技术与测试方法,尤其注重了解电子显微学的发展历程和其在电子信息材料领域研究的重要作用,拓展学生在科研实践中结合各种先进表征方法开展课题的创新能力;同时通过听课、讨论等方式,感受外国老师的思考问题、解决问题的思路,以提高学生的科研素质,让学生体会原汁原味的英语授课,提高英语水平。

本课程适用于高年级本科生、研究生以及相关学科领域在职教师,预计听课人数达45人次;本课程将引进国外原版全英文教材,暂不考虑制作视听资料。


3-2.该课程的特色与优势(校外专家授课与本校教师授课在教学内容、教学方式、师资水平、教材等方面进行比较,说明该课程的特色与优势

教学内容:《微纳表征技术与方法》这门新开课程主要依托电子显微学来展开,向授课对象介绍包括高分辨电子透射电子显微镜在内多种先进微纳表征技术与方法,以及它们的基本原理和应用范围;我们请来了该领域的专家,采用全英文授课,相比本校教师授课,能够更好的传递知识本身的内在含义以利于理解、能够提高学生英语听说能力、加强教学研在国际科研背景下更好的结合。

教材建设:周维列教授以自己编撰的电子显微学方面的著作为教学素材,结合他多年来在微纳表征方面的实践教学经验和科研经历,为我校师生精心整理全新教材。


主要参考书:

1) Zhonglin Wang. Characterization of Nanophase Materials, WILEY-VCH Verlag GmbH, 2001.

2) David B. Williams. Transmission Electron Microscopy, 清华大学出版社, 2007.

3) Reimer and H. Kohl. Transmission Electron Microscopy-Physics of Image Formation, Springer, 2008.

4) P. Hirsch, A.Howie. Electron Microscopy of Thin Crystals, 1977.

5) Brent Fultz and James Howe. Transmission Electron Microscopy and Diffractometry of Materials, Springer-Verlag, 2001.


教学方法:全英文授课,主讲老师准备电子课件,以讲座为主,研讨为辅,并结合的透射电镜操作演示。


考试方法:考查结合研讨;采用全英文的研讨方式重点考察学生对知识的理解与掌握程度。

4.课程教学大纲(此页内容将上网供宣传以及学生选课时参考)

课程名称

中文:微纳表征技术与方法

英文:Micro-Nano Characterization: Technologies and Methods

课程代码

B006307

授课语言

英语

计划开课时间

2012.06.11

校外专家来校时间、天数

2012.06.11, 约15天

课程教学大纲(以章节形式列出授课内容,并注明各章节主讲人及学时分配)

主讲人均为周维列副教授,利用全英文授课,相关授课内容章节形式如下:


1~3课时(2012-06-11):Chapter 1 History of electron microscopy

4~6课时(2012-06-12):Chapter 2 Electron scattering

7~9课时(2012-06-13):Chapter 3 Electron optics

10~12课时(2012-06-14):Chapter 4 Introduction to scanning electron microscopy (SEM)

13~15课时(2012-06-15):SEM or Dual beam operation DEMO

16~18课时(2012-06-18):Chapter 5 Electron diffraction

19~21课时(2012-06-19):TEM operation demo (I)

22~24课时(2012-06-20):Chapter 6 Diffraction imaging

25~27课时(2012-06-21):Chapter 7 High-resolution imaging

28~30课时(2012-06-22):Chapter 8 Other techniques and applications

31~34课时(2012-06-25):TEM operation DEMO (II)

35~36课时(2012-06-26):Review/Examination




该课程及校外专家是否得到其他经费支持(如有,请注明来源,金额)



院(系、所)审核意见


负责人签名(公章): 年 月 日

专家评审意见


专家组组长签名: 年 月 日

研究生院意见


负责人签字(公章): 年 月 日



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