成大”邁向頂尖大學”計畫--奈米科技暨微系統工程研究所

國立成功大學「邁向頂尖大學計畫」

  延攬優秀人才工作報告表

NCKU’s “Aim for the Top University Project”

Work Report Form for Distinguished Scholars

□續聘

■離職

100 年 7 月 13 日更新

Name of the Employee 魏伯任 ▇男 女_{Male Female}

聘　期 Period of Employment from 2011 年(y)　8 月(m)　1 日(d) to 2012 年(y) 1 月(m) 31 日(d) 研究或教學或科技研發與 管理計畫名稱

The project title of research, teaching, technology development and management

成大”邁向頂尖大學”計畫--奈米 科技暨微系統工程研究所 計畫主持人 （申請單位主管） Project Investigator (Head of Department/Center) 廖峻德 補助延聘編號

Grant Number

HUA

-一、

（由受聘人填寫）

Please summarize the entire research, teaching, or science and technology R&D and management work process (To be completed by the employee) 研究工作方面：負責本所共同實驗室之設置、規劃，將實驗室設備與開設課程內容聯結並推動相關 研究；以所上名義發表〈含已接受〉之國際期刊共計 4 篇〈自 2011 年 8 月至今〉。另申請國科會新進人 員研究計畫已獲通過〈NSC100-2221-E-006〉，補助金額 512,000 元，執行期間自 2011 年 8 月 1 日至 2012 年 7 月 31 日。 教學工作方面：本學期在所上開設薄膜檢測與分析(3 學分)、生物微結構力學(3 學分)等兩門課程； 有 24 位同學選修薄膜檢測與分析，9 位同學選修生物微結構力學。另指導碩士班研究生〈含共同指 導〉3 人。

二、

由計畫主持人或單位主管填寫

Please evaluate the performance of research, teaching or science and technology R&D and management Work: ( To be completed by Project Investigator or Head of Department/Center)

(1)是否達到延攬預期目標？

Has the expected goal of recruitment been achieved? 是。

1.聘期中配合本所共同實驗室現有設備建立實驗課程。 2.聘期中完成所提之國科會研究計畫案。

3.聘期中發表相關研究成果於國際期刊。

4.聘期中將實驗室設備與開設課程內容聯結並推動相關研究。 (2)研究或教學或科技研發與管理的方法、專業知識及進度如何？

What are the methods, professional knowledge, and progress of the research, teaching, or R&D and management work?

聘期中開授專業課程名稱：界面與微接觸 A.教學大綱： 一、 表面形貌學簡介 二、 相關物理學簡介 三、 數位訊號處理簡介 四、 機率與統計學簡介 五、 微接觸力學量測分析 六、 微接觸熱學量測分析 七、 微接觸電學量測分析 八、 微接觸潤濕量測分析 B.課程規劃： 首先簡介表面形貌學之基礎，接著介紹量測以及分析技術上所需之物理基礎與數學工具，並以專題 的方式導入表面特性與接觸性質的相關課題；重點將放在因接觸所導致的受力與變形、熱阻、電阻、 潤濕等界面性質。課程規劃除了講授學理基礎，亦包含相關量測技術的實作與分析。 C.執行內容： 1

本課程學理基礎介紹部份以講義方式設課，後續的專題將以實作方式設課。

D.課程效益：

使學生瞭解界面微接觸之學理以及量測技術，培養微尺度下觀測、分析之能力。 (3)受延攬人之研究或教學或科技研發與管理成果對該計畫(或貴單位)助益如何？

How have the research, teaching, or R&D and management results of the employed person given benefit to the project (or your unit)?

1.規劃本所共同實驗室設備聯結核心課程 2.管理本所共同實驗室 3.推動相關主題研究 4.指導碩士班研究生 研究所名稱 研究生姓名 博士 (碩士) 畢業時間 (肄業) 備 註 (如係共同指導，請註明) 口醫所 林詩韻 碩士 100.7 與莊淑芬教授共同指導 奈微所 林紘昱 碩士 101.7 與林仁輝教授共同指導，已轉為林仁輝教授單獨指導 奈微所 黃昱文 碩士 102.7 與林仁輝教授共同指導，已轉為林仁輝教授單獨指導 (4)受延攬人於補助期間對貴單位或國內相關學術科技領域助益如何？

How has the employed person, during his or her term of employment, benefited your unit or the relevant domestic academic field?

為培養學生核心能力、加強實驗課程，規劃設置光電材料以及生醫共同實驗室。共同實驗室已建置達 一定規模，聘期中受聘者持續規劃與推動相關研究。受聘者專長在於複合力學性質檢測、生物力學性 質檢測、微接觸等方面，學理分析與量測實作經驗豐富，於任職期間負責規劃共用實驗室聯結課程 以及進行相關研究工作，勝任良好、配合度佳。受聘期間已獲通過國科會研究案1 件，指導碩士班研 究生3 人，但受聘者因個人生涯規劃因素於 2012 年 1 月離職本單位至產業界任職。 (5)具體工作績效或研究或教學或科技研發與管理成果：

Please describe the specific work performance, or the results of research, teaching, or R&D and management work:

受聘者近年研究績效

A. 期刊論文

1. Wei, P . J. ; Lin, J.F.*; “A New Method Developed to Evaluate the Hardness and Elastic Modulus of a Coating

Film Deposited on a Silicon Substrate,” Surface and Coatings Technology, 200 (2005), 2489-2496.

2. Lin, J.F.*; Lin, J.W.; Wei, P . J. ; “Thermal analysis for graphitization and ablation depths of diamond films,” Diamond and Related Materials, 15 (2006), 1-9.

3. Wei, P.J. , Lin, J.F.*; “A New Model Developed for Brittle and Ductile Materials to Evaluate Mechanical

Properties of a Lump Specimen in the Use of Indentation Test,” ASME J. of Engineering Material and

Technology, 129 (2007), 284-292.

4. Lin, J.F*. Wei. P.J., Tai, C.K.; “Theoretical and Experimental Studies for the Etching Behavior of the Silicon Dioxide Film Formed by Electrochemical Atomic Force Microscopy,” Microelectronics

Engineering, 85 (2008), 143-150.

5. Liou, J.L.; Wei, P.J.; Liang, W.L.; Ai, C.F.; Lin, J.F.*; “Analyses of the Work Required for a Coating Film to Delaminate from a Substrate under Oscillating Load Conditions and Film-Substrate Contact Behavior after Delamination,” Journal of Applied Physics, 103 (2008), 103505.

6. Wei, P.J. ; Tsai, P.W.; Lin, J.F.*; “Analysis Based on MicroContact Mechanism for the Force-Depth

Behavior of Initial Contact in Nanoindentation Test,” Tribology International, 41 (2008), 1247-1254.

7. Wei, P.J. ; Lin, J.F.*; “Determination for Elasticity and Plasticity from Time-Dependent Nanoindentations,”

Material Science and Engineering A, 496 (2008), 90-97.

8. Wei, P.J. ; Shen, W.X.; Lin, J.F.*; “Analysis and Modeling for Time-Dependent Behavior of Polymers

Exhibited in Nanoindentation Tests,” Journal of Non-Crystalline Solids, 354 (2008), 3911-3918.

9. Wei, P.J. ; Wang, Y.C.; Lin, J.F.*; “Retardation of Cyclic Indentation Creep Exhibited in Metal Alloys,” Journal of Material Research, 23(10) (2008), 2650-2656.

10. Shen, Y.X; Wei, P.J.; Lin, J.F*.; “Initial and adhesive contact between a diamond indenter and polydimethylsiloxane,” Review of Scientific Instruments, 79 (2008), 096106.

11. Wei, P.J. ; Tsai, P.W.; Lin, J.F.*; “Analysis Based on MicroContact Mechanism for the Roughness

Dependent Stick-Slip Motion,” Wear, 266 (2009), 310-315.

12. Wei, P.J. ; Liang, W.L.; Ai, C.F.; Lin, J.F.*; “Analysis of Load-Depth Data for Delamination of the Interface

During Nanoindentation Test,” Nanotechnology, 20 (2009) 025701.

13. Wei, P.J. ; Chen, S.C.; Lin, J.F.*; “Adhesion Forces and Contact Angles of Water Strider Legs,” Langmuir,

25(3) (2009), 1526-1528.

14. Wei, P.J. ; Lin, J.F.*; “Modified Method for Continuous Stiffness Measurement,” Journal of Material Research, 24(3) (2009), 599-606.

15. Tai, F.C.; Lee, S.C.; Wei, P.J.; Lin, J.F.*; “Thermal treatment effects on hard and soft films measured by nanoindentation test,” Journal of Material Research, 24(3) (2009), 1069-1074.

16. Shen, Y.S.; Wei, P.J.; Lin, J.F.*; “Modified method developed for the contact-induced adhesion in indentation,” Journal of Material Research, 24(5) (2009), 1795-1802.

17. Chen, S.C.; Wei, P.J.; Lin, J.F.*; “A Model Developed for the Adhesion Forces Formed between an Atomic Force Microscopy Tip and a Rough Surface under Different Humidity Levels,” Japanese Journal of Applied

Physics, 48 (2009), 055001.

18. Wei, P.J. ; Shen, Y.S.; Lin, J.F.*; “Characteristics of Water Strider Legs under Hydrodynamic Situations,” Langmuir, 25(12) (2009), 7006-7009.

19. Wu, C.J.; Wei, P.J.; Lin, J.F.; “Reflectivity of Etched Silicon Surface with Pyramids-Part I: Theoretical Model and Its Predictions,” Journal of Micromechanics and Microengineering, 19, 115015, 2009.

20. Wu, C.J.; Wei, P.J.; Lin, J.F.; “Reflectivity of Etched Silicon Surface with Pyramids-Part II: Experimental Results from Different Etching Conditions,” Journal of Micromechanics and Microengineering, 19 (2009), 125019.

21. Chen, K.W.; Jian, S.R.; Wei, P.J.; Jang, S.C.; Lin, J.F.; “A study of relationship between semi-circular shear bands and pop-ins induced by indentations in bulk metallic glasses,” Intermetallics, 18 (2010), 1572-1578. 22. Chen, K.W.; Jian, S.R.; Wei, P.J.; Jang, S.C.; Lin, J.F.; “The study of loading rate effect of a Cu-based bulk

metallic glass during indentation,” J. Alloys Compounds, 504S (2010), S69-S73.

23. Jian, S.R.; Li, B.J.; Chen, K.W.; Jang, S.C.; Juang, J.Y.; Wei, P.J.; Lin, J.F.; “Mechanical responses of Mg-based bulk metallic glasses,” Intermetallics, 18 (2010), 1930-1935.

24. Wei, P.J. , Shen Y.X.; Lin, T.F.; Lin, J.F.; “Investigation of Enhanced Viscosity of Squeezed Liquids

Affected by Solid-Liquid Absorptiveness via Nanoindentation Technique,” Micro and Nano Letters, 6 (2011), 9-12.

25. Nguyen, H.H.; Wei, P.J.; Lin, J.F.; “Electric Contact Resistance for Monitoring Nanoindentation-Induced Delamination,” Advanced Nature and Science: Nanoscience Nanotechnology, 2 (2011), 015007.

26. Wei, P.J.; Chio, S.B.; Liang, W.L.; Lin, J.F.; “Determining Buckling Strain Energy Release Rate through

Indentation-Induced Delamination,” Thin Solid Films, in press.

B.研討會論文

1. P.J. Wei , Y.X. Shen, T.F. Lin, J.F. Lin; “Investigation of Enhanced Viscosity of Squeezed Liquids Affected

by Solid-Liquid Absorptiveness via Nanoindentation Technique,” CSME Proceeding, Tainan, 2009.

2. P.J. Wei , Y.X. Shen, G.T. Li, J.F. Lin; “Bending and Rotating Stiffness of Water Strider Legs,” CSME Proceeding, Tainan, 2009.

3. P.J. Wei , Y.X. Shen, S.B. Chio, J.F. Lin; “Determination of Residual Stress of Hard Film/Soft Substrate

Specimens via Unloading Results of Nanoindentation Tests,” CSME Proceeding, Tainan, 2009.

4. P.J. Wei , W.N. Chen, J.F. Lin; “Mechanical Properties of PC12 Cells Measured by AFM,” STAM Proceeding, Miaoli, 2009.

5. P.J. Wei , W.Y. Shiu, J.F. Lin; “Transitions of Film/Substrate Specimens during Nanoindentation Tests,” STAM Proceeding, Miaoli, 2009.

6. P.J. Wei , S.B. Chio, W.L. Liang, J.F. Lin; “Determining Buckling Strain Energy Release Rate through

Indentation-Induced Delamination,” The 5th _{International Conference on Technological Advances of Thin}

Films and Surface Coatings, Harbin, China, 2010.

7. H.H. Nguyen, P.J. Wei, J.F. Lin; “Electric Contact Resistance for Monitoring Nanoindentation-Induced Delamination,” The 5th International Workshop on Advanced Materials Science and Nanotechnology, Hanoi,

Vietnam, 2010

C.專書及專書論文

1. 鋁合金切削之熱行為分析, 成功大學碩士論文, 1998

2. 奈米壓痕實驗運用於塊材、覆膜材料機械性質以及硬脆材料黏彈性質量測-理論分析與實驗驗證, 成功 大學博士論文, 2005.

(6)

是否續聘受聘人?

□續聘

▓不續聘

(受聘者已轉至業界工作)

※此報告表篇幅以三～四頁為原則。This report form should be limited to 3-4 pages in principle.

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This report form can be downloaded in http://scholar.lib.ncku.edu.tw/explain/