首页>> 施惟恒

施惟恒

时间:2015-11-10 02:08:11

导师介绍
  导师姓名: 施惟恒
职务职称: 兼职教授,海外名师
研究方向: 压电陶瓷,新能源材料,纳米光电材料等器件设计与制备
联系方式: whshi@sspu.edu.cn
13248196202
个人简介

施惟恒,福建人,教授。1984年博士毕业于俄亥俄州立大学物理系凝态物理专业。1991年任教于德雷克塞尔(Drexel)大学材料科学与工程学系至今,2013年任上海第二工业大学,环境与材料工程学院兼职教授与海外名师至今。主讲《陶瓷制作原理与实验》、《材料热力学》、《材料科学导论》等课程。主要研究方向为压电陶瓷,新能源材料,纳米光电材料等器件设计与制备。主持上海市教委海外名师计划,主导与参与45项美国研究计划,共6百20万美金研究经费。发表126篇期刊论文,H-index因子30。指导3位访问教授,2位超博士, 20篇博士论文,12篇硕士论文。拥有32项美国专利,授权4家公司。


代表性论著

1. C. E. Kirimli, W.-H. Shih, and W.Y. Shih, Specific in situ hepatitis B viral double mutation (HBVDM) detection in urine with 60 copies ml-1 analytical sensitivity in a background of 250-fold wild type without DNA isolation and amplification.乙肝病毒双重突变(HBVDM)DNA于250倍野生型背景的尿液中检测Analyst, 分析家140(5), 1590-1598 (2015)
2. Cheng Chen, Zhi-Gang Zhu, Wei-Heng Shih, Qiao-Qiao Ge, Ming-Ju Liu, and Xiang-Rong Zhu, “Facile Preparation and Self-Assembly of Monodisperse Polystyrene Nanospheres for Photonic Crystals,”单分散聚苯乙烯纳米球的光子晶体的简易制备组装,Journal of Nanoscience and Nanotechnology, 15(4), 3239-3243 (2015)
3. Laura T Beringer, Xin Xu, Wan Shih, Wei-Hang Shih, Raymond Habas, Caroline Schauer, “An electrospun PVDF-TrFe fiber sensor platform for biological applications,”电纺PVDF-TrFE光纤传感器的生物应用Sensors and Actuators a-Physical, 222, 293-300, (2015)
4. Giang Au, Wan Y. Shih, and Wei-Heng Shih, “Efficient Intranuclear Gene Delivery by CdSe Aqueous Quantum Dots Electrostatically-Coated with Polyethyleneimine,”聚乙烯亚胺涂层硒化镉量子点在核内基因的高效传递,Materials Research Express, 2, 015401 (2015)
5. Wei-Chun Tan, Wei-Heng Shihand Yang-Fang Chen, ‘Highly Sensitive Graphene-Organic Hybrid Photodetector with Piezoelectric Substrate,’ 以压电为基板的高敏感度石墨烯有机杂化光电传感器, Advanced Functional Materials,先进功能材料24, 6818-6825 (2014)
6. C. E. Kirimli,W.-H. Shih, and W. Y. Shih, “DNA Hybridization Detection with 100 zM Sensitivity Using Piezoelectric Plate Sensors with Improved Noise-Reduction Algorithm,” 降噪算法以增进压电传感器板DNA杂交检测灵敏度至100 zM, Analyst, 分析家139, 2754-2763 (2014)
7. G. H. T. Au, L. Mejias, V. K. Swami, A. D. Brooks, W. Y Shih, and W.-H. Shih,* “Quantitative Assessment of Tn antigen in Breast Tissue Micro-arrays using CdSe Aqueous Quantum Dots,” 使用水性硒化镉量子点对Tn抗原在乳腺组织微阵列的定量评估, Biomaterials, 生物材料35, 2971-2980 (2014)
8. W. Wu, W. Y. Shih, and W.-H. Shih,* “Enhancing detection sensitivity of piezoelectric plate sensor by increasing transverse electromechanical coupling constant,” 通过增加横向机电耦合常数提高压电板传感器的检测灵敏度, J. Appl. Phys., 美国物理协会应用物理期刊114, 064505 (2013)
9. X. Gao, W.-H. Shih* and W. Y. Shih, “Flow Energy Harvesting Using Piezoelectric Cantilevers with Cylindrical Extension,”在压电悬臂梁上采用圆筒探头制备能量收集系统, IEEE Transactions on Industrial Electronics, IEEE工业电子(IEEE顶级刊物)60, 1116-1118 (2013)
10. G. H. T. Au, W. Y. Shih, W.-H. Shih, * L. Mejias, V. K. Swami, K. Wasko, and A. D. Brooks, “Assessing Breast Cancer Margins Ex Vivo Using Aqueous Quantum-Dot-Molecular Probes,”采用水系量子点分子探针在体外探测乳腺癌细胞, International Journal of Surgical Oncology, 国际肿瘤外科杂志2012, 861257
11. G. H. T. Au, S-J. Tseng, W. Y. Shih, and W.-H. Shih,* “Aqueous Cd1-xPbxS Quantum Dots for Near-Infrared Imaging,” 水系合成 Cd1-xPbxS量子点用于近红外成像, Nanotechnology纳米科技23, 275601 (2012)
12. H. Yegingil, W. Y. Shih, and W.-H. Shih, * “Probing Model Tumor Interfacial Property Using Piezoelectric Cantilevers,” 压电悬臂梁探测癌症细胞界面, Review of Scientific Instruments, 科学仪器评论81, 095104 (2010)
13. Q. Zhu, W. Y. Shih, and W.-H. Shih,* “Mechanism of Flexural Resonance Frequency Shift of a Piezoelectric Microcantilever Sensor During Humidity Detection,” 用于湿度检测的压电悬臂梁谐振频率变化机制研究, American Institute of Physics, Applied Physics Letters美国物理协会 应用物理快报92, 183505 (2008)
14. H. Li, W. Y. Shih, and W.-H. Shih,* “Synthesis and Characterization of Aqueous Carboxyl-Capped CdS Quantum Dots for Bioapplications,”生物应用的水系羧基封端的CdS量子点合成及表征, Industrial and Engineering Chemistry Research美国化学协会化学工业与工程技术46, 2013-2019 (2007)
15. W. Y. Shih, H. Luo, C. Martorano, H. Li, and W.-H. Shih,* “Freestanding Films with Giant Piezoelectric Coefficients,” 可产生巨大压电系数的独立式厚膜, Applied Physics Letters美国物理协会 应用物理快报89, 242913 (2006)
16. Colloidal Ceramic Processing of Nano-, Micro-, and Macro-Particulate Systems,微纳米粉体的陶瓷胶体加工工艺,论著, 美国陶瓷协会Ceramic Transactions, Volume 152, (2003)
17. W.-H. Shih,* W. Y. Shih, S. I. Kim, J. Liu, and I. A. Aksay, “Scaling Behavior of Elastic Properties of Colloidal Gels,” 胶体凝胶在量产后的弹性行为, Physical Review A美国物理协会 物理评论A 42, 4772 (1990) (引用416次)


专利

1. J. Vartuli, D. L. Milius, Xiaoping Li, W.-H. Shih, W. Y. Shih, R. K. Prud'homme, and I. A. Aksay, "Multilayer Ceramic Piezoelectric Laminates with Zinc Oxide Conductors," United States Patent 6,329,741, Dec. 11, 2001.
2. Wei-Heng Shih, Hui Li, Melissa Schillo, and Wan Y. Shih, “Synthesis of Water Soluble Nanocrystalline Quantum Dots and Uses Thereof,” US Patent No. 7,335,345, February 26, 2008.
3. Wan Y. Shih, Wei-Heng Shih, and Zuyan Shen, “Piezoelectric Cantilever Sensors,” US Patent No. 7,458,265, December 2, 2008.
4. Wan Y. Shih, Wei-Heng Shih, Anna Markidou, Stephen T. Szewczyk, and Hakki Yegingil, “All-electrical Piezoelectric Finger Sensor (PEFS) for Soft Material Stiffness Measurement,” US patent 7,497,133B2, March 3, 2009.
5. Wei-Heng Shih, Hui Li, Melissa Schillo, and Wan Y. Shih, “Water Soluble Quantum Dots,” US continuation Patent 7,597,870B2, Oct. 6, 2009.
6. Wei-Heng Shih, Hongyu Luo, Christian Martorano, and Wan Y. Shih, “Freestanding Films with Giant Electric-Field-Enhanced Piezoelectric Coefficients,” US patent 7,744,773B2, June 29, 2010.
7. W. Y. Shih, W.H. Shih, A. Markidou, S. Szewczyk, H. Yegingil, “All Electrical Piezoelectric Finger Sensor (PEFS) for Soft Material Stiffness Measurement,” US 7,779,707B2, August 24, 2010.
8. Wei-Heng Shih, Wan Y. Shih, and Huiming Gu, “Method of Making Mixed Metal Oxide Ceramics,” US patent 7,785,527B1, 8/31/10.
9.W.-H. Shih, H. Li, and W. Y. Shih, “Water Soluble Nanocrystalline Quantum Dots,” US continuation patent No. 7976819, July 12, 2011.
9. Wan Y. Shih, Wei-Heng Shih, Qing Zhu, and Zuyan Shen, “Piezoelectric Microcantilevers and Uses in Atomic Force Microscopy,” US patent No. 7,992,431, August 9, 2011.
10. W. Y. Shih, W.H. Shih, A. Markidou, S. Szewczyk, H. Yegingil, “All Electrical Piezoelectric Finger Sensor (PEFS) for Soft Material Stiffness Measurement,” US divisional patent, 8033185, October 11, 2011
11. W.-H. Shih, H. Li, and W. Y. Shih, “Water Soluble Nanocrystalline Quantum Dots,” US utility patent No. 8080229, December 20, 2011
12. Wei-Heng Shih, Wan Y. Shih, and Hakki Yegingil, “Energy Harvesting Device,” US patent 8110964B2, February 7, 2012,
13. Wan Y. Shih, Wei-Heng Shih, and Joseph A. Capobianco, “Electrical Insulation of Devices with Thin Layers,” US patent 8,197,757, June 12, 2012.
14. Wei-Heng Shih, Huidong Li, Wan Y. Shih, “Lead-free Piezoelectric Ceramic Films and a Method for Making Thereof” US Patent 8,241,569, August 14, 2012.
15. Wei-Heng Shih, Wan Y. Shih, and Hakki Yegingil, “Energy Harvesting Device,” US patent 8421313B2, April 16, 2013
16. Wan Y. Shih and Wei-Heng Shih, “A Hand-Held Phase-Shift Detector for Sensor Applications,” US8456150B2, June 4, 2013.
17. Wei-Heng Shih, Wan Y. Shih, and Huiming Gu, “Method of Making Mixed Metal Oxide Ceramics,” US patent 8475706, July 2, 2013.
18. W.-H. Shih and W. Y. Shih, “Specificity and Sensitivity enhancement in cantilever sensing,” US patent 8481335, July 9, 2013.
19. Wei-Heng Shih, Wan Y. Shih, and Hui Li, “Synthesis of Water Soluble Nontoxic Nanocrystalline Quantum Dots and Uses Thereof,” US patent 8491818, July, 23, 2013.
20. W.-H. Shih, H. Li, and W. Y. Shih, “Lead-free piezoelectric ceramic films and a method for making thereof,” US patent No. 8,496,870, July 30, 2013.
21. W. Y. Shih, W.-H. Shih, A. Markidou, S. Szewczyk, H. Yegingil, “All Electrical Piezoelectric Finger Sensor (PEFS),” US8549933B2, October 8, 2013.
22. W. Y. Shih, W.-H. Shih, H. Yegingil, and A. Brooks, “System and method for evaluating tissue,” US8845555B2, 9/30/2014, US8562546B2, October 22, 2013.
23. Wei-Heng Shih, Huidong Li, Wan Y. Shih, “Lead-free Piezoelectric Ceramic Films and a Method for Making Thereof” U.S. Patent No. 8,715,575, May 6, 2014.
24. Wan Y. Shih, Joseph Capobianco, and Wei-Heng Shih, “Determination of Dissociation Constants Using Piezoelectric Microcantilevers,” US patent US8722427B2, May 13, 2014.
25. Wan Y. Shih, Qing Zhu, and Wei-Heng Shih, “Enhanced Detection Sensitivity with PiezoelectricSensors,” US 8741663 B2, June 3, 2014, International Patent Application No. PCT/US09/036048, filed March 4, 2009, US provisional patent application No. 61/035,669, March 11, 2008, Drexel 08-0901D
26. W. Y. Shih, W.-H. Shih, A. Markidou, S. Szewczyk, H. Yegingil, “All Electric Piezoelectric Finger Sensor (PEFS) for Soft Material Stiffness Measurement,” US patent No. 8,826,749. September 9, 2014.
27. W. Y. Shih, W.-H. Shih, H. Yegingil, and A. Brooks, “System and method for evaluating tissue,” US Patent No. US8845555 B2, September 30, 2014.
28. Wan Y. Shih, Wei-Heng Shih, Qing Zhu, and Zuyan Shen, “Piezoelectric Microcantilevers and Uses in Atomic Force Microscopy,” US8857248 B2, October 14, 2014.
29. W.-H. Shih, W. Y. Shih, H. Li, A. Kopek, I. MacDonald, Yu-Chieh Lu, and Ryan O’Malley, “Water-soluble Nanocrystalline Quantum Dots Capable of Near Infrared Emissions,” US8865477B2, October 21, 2014.
30. Wan Y. Shih, Wei-Heng Shih, Zuyan Shen, Qing Zhu, Joseph Capobianco, and John-Paul McGovern, “Piezoelectric Microcantilever Sensors for Biosensing,” US8927259 B2, January 6, 2015.
31. Wei-Heng Shih, Hongyu Luo, Christian Martorano, and Wan Y. Shih, “Freestanding Films with Giant Electric-Field-Enhanced Piezoelectric Coefficients,” US9039921 B2, May 26, 2015.
32. Wei-Heng Shih, Giang Au, Wan Y. Shih, “Methods for making water soluble quantum dots,” US 9082918 B2, July 14, 2015.


所获荣誉

2013 年美国国家发明人科学院院士
2011德雷克塞尔大学材料系最佳教学奖
2004德雷克塞尔大学杰出研究奖
2001德雷克塞尔大学工学院最佳教授奖
1999美国陶瓷协会爱德华亨利电子陶瓷部最佳论文奖

打印 返回

版权所有 上海第二工业大学研究生部 上海市浦东新区金海路2360号 邮编:201209
登录