中心主任SUPERVISOR

 

郭倩丞 教授兼薄膜中心主任

 

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  • 現職

   國立中央大學,光電科學與工程學系副教授兼薄膜中心主任

   

  • 學歷

   國立中央大學光電博士 

 

  • 經歷

國立中央大學光電科學與工程學系助理教授 (2016~Present)

國立中央大學機械工程學系助理教授(2011~2016)

國立中央大學光電科學研究中心助理研究員(2010~2011)

國立中央大學光電科學與工程學系博士後研究員(2007~2010)

加拿大國家研究委員會微結構科學研究所客座研究員(2006 ~2007)

統新光訊股份有限公司研發部經理(2004~2006)

精碟科技股份有限公司研發部研究員(2003~2003)

玉山光訊股份有限公司製造部鍍膜課課長(2001~2002)

玉山光訊股份有限公司研發部研發工程師(2000 ~2001)

 

  • 研究專長

​   光學薄膜設計、製鍍分析與量測 真空設備的設計與組立之技術 光電產品之光學最佳化的模擬、設計、製鍍、量測與分析 透明導電薄膜製程、分析與量測 電漿聚合膜在薄膜的應用 石墨烯薄膜成長與應用於光電元件 可撓式基板鍍膜及應力分析

 

  • 研究團隊

  薄膜光學

 

  • 研究現況

  

  • 榮譽

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2016

104學年 國立中央大學 學術研究傑出獎

2015

擔任”真空科技”雜誌 104年客座主編(28-3)

2014

OPTIC 2014 Student Paper Award

2011

The Fourth Asia-Pacific Light Sources Workshop,

Paper Award

 

2007

  1. 台灣光電科技研討會學生論文獎(指導老師)

  2. 中華民國斐陶斐榮譽學會96年榮譽會員

  3. 美國光學學會 學生參加會議獎助金 (OSA Student Travel Grant Program )

 

2006 - 2007

行政院國家科學委員會與加拿大國家研究委員會(National Research Council, 簡稱NRC)

2006年合作培訓博士生及博士後研究人員計畫

 

 

2005 - 2006

  1. 國際光學工程學會中央大學學生分會 會長
    (President of National Central University SPIE student chapter)

  2. 94學年度國際論文發表獎學金(中大光電系)

  3. 94學年度教育部獎學金(中大光電系)

 

  • 論文著作

1.Y. C. Chang, H. S. Wei,C. C. Kuo, W. B. Liao, S. R. Huang,and C. C. Lee*, “High transmittance superhydrophilic thin film with superior mechanical properties” Thin Solid Films accepted (2016).

2 Y. C. Chang, C. C. Lee, S. R. Huang,C. C. Kuo,and H. S. Wei*, “An easy and effective method to prepare superhydrophobic inorganic/organic thin film and improve mechanical property”, Thin Solid Films accepted (2016).

3 Y. K. Fuh*, C. C. Kuo, Z. M. Huang, S. C. Li, and E. R. Liu, “A Transparent and Flexible Graphene-Piezoelectric FiberGenerator”, small, 12, No. 14, pp. 1875–1881 (2016).(SCI, IF=8.315, NANOSCIENCE&NANOTECHNOLOGY, 10/83, Q1)

4 M. C. Li, Y. M Lo, S. F. Liao, H. C. Chen, H. H. Chang, C. C. Lee, and C. C. Kuo*, “Use of anodes with tunable work function for improving organic light-emitting diode performance”, Applied Surface Science, 357(A), pp.539-542 (2015). (SCI, IF=2.711, PHYSICS, APPLIED, 28/144, Q1)

 

5 C. C. Kuo*, M. C. Li, S.F. Liao, C. L. Wei, H. S. Wei, C. C. Lee,” Improving the gas barrier property of SiOx:C thin films deposited by RF magnetron sputtering”, Surf. Coat. Technol., 279, pp.161-165 (2015).(SCI, IF=1.998, PHYSICS, APPLIED, 49/144, Q2)

6 S. H Chan, Y. L. Chu, S.H Chen, and C. C. Kuo*,” Fourier transform analysis of hexagonal domain for transparent conductive graphene” Opt. Exp, 23, No.17, pp. 22544-22552 (2015). (SCI, IF:3.488, optics 10/87, Q1)

7 S.H. Chen, W. T. Lin, S. H. Chan, S. Z. Tseng, C. C. Kuo, S. C. Hu, W. H. Peng, and Y. T. Lu, “Photoluminescence Analysis of CdS/CIGS Interfaces in CIGS Solar Cells”, ECS J. Solid State Sci. Technol. 4 (9) P347-P350 (2015). (SCI, IF=1.558, PHYSICS, APPLIED, 73/144, Q3)

8 S. H Chan, M. C. Li, H. S. Wei, S. H. Chen, and C. C. Kuo*, “The Effect of Annealing on Nano thick Indium Tin OxideTransparent Conductive Films for Touch Sensors”, Journal of Nanomaterials,Article ID 179804, 2015.(SCI, IF=1.611, MATERIALS SCIENCE, MULTIDISCIPLINARY 104/251, Q2)

9 S. H Chan, S. F. Liao, H. P. Chen, H. S. Wei, S. H. Chen, C. C. Lee, and C. C. Kuo*, “Spectral monitoring CH/C2 ratio of methane plasma for growing single-layer graphene on Cu”, Journal of Nanomaterials, Article ID 423237, (2015).(SCI, IF=1.611, MATERIALS SCIENCE, MULTIDISCIPLINARY 104/251, Q2)

10 S. H Chan, W. J. Chen, H. P. Chen, H. S. Wei, M. C. Li, S.H Chen, C. C. Lee, and C. C. Kuo*,” The deviation of growth model for transparent conductive graphene”, Nanoscale Research Letters, 9:581 (2014). (SCI, IF= 2.625, PHYSICS, APPLIED 31/176, Q1)

11 H. S. Wei*, C. C. Kuo, C. C. Jaing, Y. C. Chang, and C. C. Lee, “Highly transparent superhydrophobic thin film with low refractive index prepared by one-step coating of modified silica nanoparticles”, J Sol-Gel SciTechnol, 71, pp. 168-175, 2014. (SCI, IF= 1.646, MATERIALS SCIENCE, CERAMICS 6/25, Q1)

12 S. H Chan, W. T. Lin, W. H. Cho, C. C. Kuo, C. C. Lee, and S.H Chen*,” Controllable photonic mirror fabricated by the atomic layer deposition on the nanosphere template”, Appl. Opt. , 53,pp. A237-A241 (2014). (SCI, IF=1.718, optic 29/83, Q2)

13 C. C. Jaing,*, C. J. Tang, C. C. Chan, K. H. Lee, C. C. Kuo, H.C. Chen, and C. C. Lee,”Optical constants of electrochromic films and contrast ratio of reflective electrochromic devices”, Appl. Opt. , 53,pp. A154-A158 (2014). (SCI, IF=1.718, optic 29/83, Q2)

14 B.H Liao, S.H. Chan, C. C. Lee, C. C. Kuo, S.H Chen, and D. Y. Chiang*,”FTO films deposited in transition and oxide modes by magnetron sputtering using tin metal target”, Appl. Opt. , 53,pp. A148-A153 (2014). (SCI, IF=1.718, optic 29/83, Q2)

15 B.H Liao, S.H. Chan, C. C. Lee, C. C. Kuo, S.H Chen, and D. Y. Chiang*,”FTO films deposited in transition and oxide modes by magnetron sputtering using tin metal target”, Appl. Opt. , 53,pp. A148-A153 (2014). (SCI, IF=1.718, optic 29/83, Q2)

16 S.H. Chan, S.H Chen, W. T. Lin, M. C. Li., Y. C. Lin. and C. C. Kuo*, “Low-temperature synthesis of graphene on Cu using plasma-assisted thermal chemical vapor deposition”, Nanoscale Research Letters, 8:285 (2013). (SCI, IF= 2.625, PHYSICS, APPLIED 31/176, Q1)

17 P. L. Luo, C. C. Kuo, C. C. Lee, and J. T. Shy*, “Frequency stabilization of a single-frequency volume Bragg grating-based short-cavity Tm:Ho:YLF laser to a CO2 line at 2.06 um”, Appl. Phys. B, 109, pp.327–331 (2012). (SCI, IF=1.782, optic 17/79, Q1)

18 W. S. Sun, Y. N. Lin, C. L. Tien*, C. H. Tsuei, C. C. Kuo and J. Y. Chang, “Compact design for a unitary photo detector and single-path combo optical pickup head for Blu-ray Disc, digital versatile disc and compact disc systems”, Optics and Lasers in Engineering, 50, pp.1330–1340 (2012). (SCI, IF=1.916, optic 25/79, Q2)

19 C. C. Lee, M. C. Li, S. H. Chen, and C. C. Kuo*, “Transparent Conductive Distributed Bragg Reflectors Composed of High and Low Refractive Index Transparent Conductive Films” Jpn. J. Appl. Phys., 51, pp. 052602-052602-4 (2012). (SCI, IF=1.067, physics, applied 76/118, Q3)

20 W. S. Sun*, C. H. Tsuei, and C. C. Kuo, “Calculating the converted solar energy of sunlight in the LED hybrid light box lighting system”, Lighting Res. Technol. 0, pp.1-9(2012).. (SCI, IF=1.197,optic 50/78, Q3)

21 C.C. Lee, M. C. Li, W. C. Sun, and C. C. Kuo*, “Improvement of Heat Resistance of Hydrogen Doped ZnO:Ga Thin Films” Electrochem. Solid-State Lett., 15, pp. H94-H96 (2012). (SCI, IF=2.01, materials science, multidisciplinary 58/225, Q2)

22 M. C. Li, C. C. Kuo, S. H. Peng, S. H. Chen, and C. C. Lee*, “Preparation of Low Resistivity Transparent Conductive Nb-Doped TiO2 Films by the Co-sputtering Method”, Jpn. J. Appl. Phys., 51, pp. 025504-025504-4 (2012). (SCI, IF=1.067, physics, applied 76/118, Q3)

23 C. L. Yeh, S. Z. Tseng, W. T. Lin, C. C. Kuo, and S. H. Chen*,“Thermal Stability of Hydrogen-Doped Zinc-Oxide Thin-Films”, Electrochem. Solid-State Lett., 15, H14-H16 (2012). ( SCI, IF=2.01, materials science, multidisciplinary 58/225, Q2)

24 M. C. Li, C. C. Kuo, S. H. Peng, S. H. Chen, and C. C. Lee*, “Influence of hydrogen on the properties of Al and Ga-doped ZnO films at room temperature”, Applied Optics, 50, 9, pp.C197-C200 (2011). (SCI, IF:1.748,optic 23/78, Q2)

25 H. Liao, C. C. Kuo, P. J. Chen, and C. C. Lee*, “Fluorine-doped tin oxide films grown by pulsed direct current magnetron sputtering with an Sn target”, Applied Optics, 50, 9, pp.C106-C110 (2011). (SCI, IF:1.748,optic 23/78, Q2)

26 H. Tsuei, W. S. Sun*, and C. C. Kuo, “Hybrid sunlight/LED illumination and renewable solar energy saving concepts for indoor lighting”, Opt. Exp, 18, No.104, pp. A640-A653(2010). (SCI, IF:3.753,optic 5/78, Q1)

27 S. H. Chen*, K. Wu, C. C. Kuo , S. J. Ma and C. C. Lee,”System for Measuring Optical Admittance of a Thin Film Stack”, Optical review, 16, No.4, pp. 1-4 (2009).

28 J. C. Hsu*, C. C. Lee, H. L. Chen, C. C. Kuo, and P. W. Wang, “Investigation of thin TiO2 films cosputtered with Si species”, Applied Surface Science, 255, pp. 4852–4858 (2009).

29 J. R. Chen, T. C. Lu*, Y. C. Wu, S. C. Lin, W. R. Liu, W. F. Hsieh, C. C. Kuo, and C. C. Lee "Large vacuum Rabi splitting in ZnO-based hybrid microcavities observed at room temperature", Appl. Phys. Lett. 94, 061103 (2009).

30 S. W. Chen, M. H. Lo, T. T. Kao, C. C. Kao, J. T. Chu, L. F. Lin, H. W. Huang, T. C. Lu, H. C. Kuo, S. C. Wang*, C. C. Kuo,, and C. C. Lee, “Effects of Inhomogeneous Gain and Loss on Nitride-based Vertical-Cavity Surface Emitting Lasers”, Jpn. J. Appl. Phys., 48, 04C127 (2009)

31 T. C. Lu*, J. R. Chen, S. W. Chen, H. C. Kao, C. C. Kuo, C. C. Lee, and S. Chung, “Development of GaN-Based Vertical-Cavity Surface-Emitting Lasers,” IEEE J.Sel. Topics Quantum Electron. 15, 3, pp. 850-860 (2009).

32 D. Poitras*, C. C. Kuo and C. Py, “Design of high-contrast OLEDs with microcavity effect”, Opt. Exp, 16, No.11, pp. 8003-8015(2008).

33 C. Py*, D. Poitras, C. C. Kuoand H. Fukutani, “High-contrast organic light emitting diodes with a partially absorbing anode”, Opt. Letters, 33, No. 10, pp. 1126-1128(2008).

34 C. C. Lee* and S. H. Chen, C. C. Kuoand C. Y. Wei, "Achievement of an Arbitrary Bandwidth for a Narrow Bandpass Filter", Opt. Exp, 15, No.23, pp. 15228-15233(2007).

35 S. H. Chen*, C. C. Lee and C. C. Kuo, "How the Monitoring Curve is Affected by the Thermal Shift of a Filter During Deposition.", Appl. Opt, 45, (2006), pp.1338-1343.

36 C. C. Lee*, C. C. Kuo and S. H. Chen, “Influence of monitor passband width to layer thickness determination during depositing a DWDM filter”, Appl. Opt., 45, (2006), pp.1344-1348.

37 C. C. Lee*, C. C. Kuo and S. H. Chen, “Influence of monitor passband width to layer thickness determination during depositing a DWDM filter”, Appl. Opt., 45, (2006), pp.1344-1348.

38 C.C. Lee*, K. Wu, C. C. Kuo and S.H. Chen,” Improvement of the optical coating process by cutting layers with sensitive monitor wavelengths”, Opt. Exp, 13, No. 13, pp. 4854-4861(2005).