林麗瓊
Li-Chyong Chen

臺大新穎材料原子級科學研究中心主任 / 凝態中心特聘研究員

電話:(02)3366-5249
傳真:(02)2365-5404
E-MAIL:chenlc@ntu.edu.tw
網站:尖端材料實驗室

研究專長

材料科學



學歷

美國哈佛大學應用物理學博士 (1983-1989)
國立台灣大學物理系學士 (1977-1981)



現職與經歷

臺大新穎材料原子級科學研究中心主任 (2018-present)
臺大凝態科學研究中心主任 (2012-2018)
臺大凝態科學研究中心研究員 (2000-present)
臺大凝態科學研究中心副研究員 (1994-2000)
美國奇異公司研發中心材料科學研究員 (1989-1994)
美國哈佛大學研究生兼任助理 (1983-1989)
臺大物理系專任助教 (1981-1983)



榮譽

中央研究院第33屆數理科學組院士(2022)
徐有庠先生紀念基金會「有庠科技講座_奈米科技類」(2020)
教育部學術獎 (2018)
臺灣真空學會會士 (2018)
臺灣傑出女科學家獎 (2017)
亞太材料科學院院士 (2015)
阿查亞維諾瓦國際材料科學與技術獎, 印度 (2013)
侯金堆傑出榮譽獎_材料組 (2012)
臺大特聘研究員 (校級, 2011- present)
傑出人才發展基金會傑出人才講座 (2010-2015)
國科會傑出獎 (2010-2013)
美國材料學會會士, 美國 (2010)
國際花喇子模獎, 伊朗 (2009)
國際發明家協會女士獎 (2009)
國科會傑出學者研究計畫 (2008-2011)
英國皇家工程學院傑出訪問學者, 英國 (2008)
臺大特聘研究員 (院級, 2007-2011)
瑞典林雪平大學榮譽博士, 瑞典 (2007)
國科會傑出獎 (2007)
中華民國物理學會會士 (2006)
臺大研究成就獎 (2004)
中研院年輕學者研究著作獎 (2000)
Renhold Rudenberg Memorial Prize for Graduate Student, Harvard, USA (1989)
IBM Predoctoral Fellowship, USA (1986-1988)



主要研究領域

主要研究領域在半導體、光電與能源材料,並著重於利用先進薄膜技術來合成低維度奈米材料,探討其成長機制、微結構與各種物理及化學性質的關係,從而開發其應用潛能。 本實驗室著重於碳基奈米材料(包括奈米碳管與石墨烯)、矽與三-五族氮化物、金屬氧化物、環大錯合物等材料系統與其低維度複合結構之開發;已建置相當多元之化學與物理氣相沈積設施,例如:磁控濺鍍、分子束磊晶、原子層沈積、微波與電子迴旋共振電漿化學氣相沈積等等。展望未來,於節能光電與永續能源領域之基礎與應用研究上,無論是燃料電池、超級電容、光催化、太陽能電池或熱電,本實驗室將致力於開發基於物產資源較豐富元素之新穎材料,並著重於建置綠色與環保之製程。



專業任命與學術社群服務

1. Member of the Board of Trustees:
National Synchrotron Radiation Research Center, Taiwan (2018-present)

2. Member of the Commission on Structure and Dynamics of Condensed Matter (C.10):
International Union of Pure and Applied Physics (IUPAP) (2018-2020)

3. Member of the Board of Directors:
Materials Research Society (MRS), USA (2017-2019)

4. Series Editor, Member of the Series Board:
World Scientific Publishing Company (WSPC) Series in Nanoscience and Nanotechnology (2015-present)

5. Advisory Editor:
Book Series on Energy and Sustainability, Cambridge University Press and the Materials Research Society (2013-present)

6. Editorial Advisory Board:
Critical Reviews in Solid State and Materials Sciences, Taylor and Francis (2004-present)

7. Editorial Board:
Advanced Mater. Lett., VBRI Press (2010-present); Intl. J. of Molecular Engineering, Inderscience Publishers (2007-present); Nanosci. Nanotech. Lett., American Scientific Publishers (2010-2012); Open Phys. Chem. Journal and Open Appl. Phys. Journal, Bentham Science Publishers (2007-2013)

8. Associate Editor:
Journal of Vacuum Science and Technology B-Microelectronics and Nanometer Structures (2004-2006)

9. Meeting Co-Chair:
TACT International Conference on Thin Films (Tainan, 2015; Taipei, 2013; Kenting 2011)

10. Meeting Co-Chair:
MRS Fall Meeting, Boston, MA, USA (2009)

11. Meeting Chair:
AVS-International Conference on One-dimensional Nanomaterials, Taipei, Taiwan (2005)

12. Symposium Chair:
MRS Spring Meeting, San Francisco, CA, USA (2008); IMRC/China-MRS, Chongqing, China (2008); 214th ECS & Pacific Rim Meeting on Electrochemistry & Solid-State Science (PRiME), Honolulu, HI, USA (2008); 213th ECS, Phoenix, AZ, USA (2008); International Conference on Metallurgical Coatings and Thin Films (ICMCTF), San Diego, CA, USA (2004-2007)

13. International Advisory Committee:
European Conference on Diamond, Diamond-like Materials, Carbon Nanotubes, Nitrides and SiC (Riva Del Garda, Italy, 2013; Granada, Spain, 2012; Garmisch-Partenkirchen, Bavaria, Germany 2011; Budapest, Hungary, 2010; Athens, Greece, 2009; Sitges, Spain, 2008; Berlin, Germany, 2007; Estoril, Portugal, 2006; Toulouse, France, 2005; Riva Del Garda, Italy, 2004)

14. International Advisory or Program Committee:
8th Forum on New Materials (CIMTEC), 2018; 6th Intl. Conf. on Novel Functional Carbon Nanomaterials, 2018, Perugia, Italy; International Conference on New Diamond and Nano Carbons (NDNC), 2018, Flagstaff, AZ, USA; Advanced Materials World Congress (AMWC), Stockholm, Sweden, 2015; 6th Forum on New Materials (CIMTEC), on Novel Functional Carbon Nanomaterials, Montecatini Terme, Tuscany, Italy, 2014; Intl. Conf. on Nanosystems and Applications, Coimbatore, India, 2012; Intl. Conf. on Nanomater. & Nanotech. (ICNANO), Delhi, India, 2011; SPIE Photonics West, San Francisco, USA, 2011; NANOCarbon-IVESC, Nanjing, China, 2010; 6th Intl. Workshop on Nitride Semiconductors (IWN), Tampa, Florida, USA, 2010; IEEE Nano, Seoul, Korea, 2010; 2nd Intl. Conf. on Surface, Coatings and Nanostructured Mater. (NanoSMAT), Algarve, Portugal, 2007; Thin Films, Singapore, 2006; 11th Intl. Ceramics Congress and 4th Forum on New Materials (CIMTEC), on Diamond and Other New Carbon Materials, Sicily, Italy, 2006; 6th Intl. Symposium on Blue Laser and Light Emitting Diodes (ISBLLED), Montpellier, France, 2006

15. Guest Editor:
Diamond and Related Materials Vol. 18, Issues 2-3_Proceedings of the International Conference on New Diamond and Nano Carbons 2008, ed. I. N. Lin, K. H. Chen, L. Chang, L. C. Chen, and Y. H. Tzeng, Elsevier B. V. (2009)

16. Proceeding Editor:
Carbon Nanotubes and Related Low-Dimensional Materials, ed. L. C. Chen, D. B. Geohegan, J. Robertson, and Z. L. Wang, MRS Symp. Proc. Vol. 1081E, Warrendale, PA (2008)

17. Proceeding Editor:
State-of-the-Art Program on Compound Semiconductors 48: ZnO, InZnO and InGaO Related Mater. & Devices for Electronic and Photonic Applications, ed. M. E. Overberg, F. Ren, B. Gila, P. S. Nam, H. Ouyang, L. C. Chen, Y. Heo, J. Kim, J. LaRoche, P. Shen, and K. Shiojima, ECS, Pennington, NJ, Vol. 1, No.2. (2008)

18. Faculty Advisor :
MRS University Chapters-National Taiwan University (2015-present)

19. Chair:
Pacific Rim Subcommittee of MRS, USA (2010-2011)

20. Founding President:
Taiwan Chapter of AVS (2006-2008)

21. Councilor:
Taiwan Association of Coating Technology, Taiwan (2003-2007, 2010-present)

22. Supervisor:
Society of Taiwan Women in Science and Technology (2011-2013)

23. Supervisor:
Taiwan Vacuum Society, Taiwan (2009-2012)

24. Vice President:
Physical Society of the Republic of China, Taiwan (2006-2007) & Councilor (2003-2009)



代表著作

代表性研究 Top 10

(1) Photosensitive Gold Nanoparticle-embedded Dielectric Nanowires, M. S. Hu, H. L. Chen, C. H. Shen, L. S. Hong, B. R. Huang,K. H. Chen, L. C. Chen*, Nature Materials 5, 102-106 (2006). [▲: 222] {首創微反應器 電漿增強化學氣相沈積法,製作零維與一維複合奈米線,是具有波長選擇性之奈米開關,連續十年高被引論文}

(2) Improved Broadband and Quasi-omni-directional Anti-reflection Properties with Biomimetic Si Nanostructure, Y. F. Huang, S. Chattopadhyay*, Y. J. Jen, C. Y. Peng, T. A. Liu, Y. K. Hsu, C. L. Pan, H. C. Lo, C. H. Hsu, Y. H. Chang, C. S. Lee, K. H. Chen, L. C. Chen*, Nature Nanotechnology 2, 770-774 (2007). [▲: 606] {首創以電子迴旋共振電漿進行自遮蔽蝕刻,形成超高密度奈米尖錐陣列,有寬波域與廣視角抗反射特性,有專利}

(3) Anti-reflecting and Photonic Nanostructures, S. Chattopadhyay*, Y. F. Huang, Y. J. Jen, A. Ganguly, K. H. Chen, L. C. Chen*, an invited review article in A. G. Cullis and S. S. Lau, Eds. Materials Science and Engineering Review 69, pp. 1-35 (2010). [▲: 256] {受邀撰寫有關抗反射與光子奈米結構之回顧論文,當期封面}

(4) Flexible Supercapacitor Based on Polyaniline Nanowires/Carbon Cloth with both High Gravimetric and Area-normalized Capacitance, Y. Y. Horng, Y. C. Lu, Y. K. Hsu, C. C. Chen, L. C. Chen*, K. H. Chen*, J. Power Sources 195, 4418-4422 (2010). [▲: 158] {以聚苯胺奈米線/奈米碳布複合結構做出之超級電容, 具有優異之重量與面積歸一化之電容值,是可撓曲超級電容的先驅報導之一}

(5) Vitalizing Fuel Cells with Vitamins: Pyrolyzed Vitamin B12 as a Non-precious Catalyst for Enhanced Oxygen Reduction Reaction of Polymer Electrolyte Fuel Cells, S. T. Chang, C. H. Wang, H. Y. Du, H. C. Hsu, C. M. Kang, C. C. Chen, S. C. Yen, W. F. Huang, L. C. Chen*, M. C. Lin, K. H. Chen*, Energy & Environmental Science 5, 5305-5314 (2012). [▲: 56] {以維他命B12(其核心結構屬環大錯合物)燒結後具有優越的氧化 還原反應,在高分子電解質燃料電池之表現名列前茅,Materials Today與Chemistry World皆有重點報導本研究}

(6) Plasmonic Ag@Ag3(PO4)1−x Nanoparticle Photosensitized ZnO Nanorod-array Photoanodes for Water Oxidation, Y. G. Lin, Y. K. Hsu, Y. C. Chen, S. B. Wang, J. T. Miller, L. C. Chen*, K. H. Chen*, Energy & Environmental Science 5, 8917-8922 (2012). [▲: 62] {以容易量產製程做出硝酸銀披覆奈米銀/氧化鋅奈 米柱複合結構,在電解水反應中作為光電極之陽極,因奈米銀具有表面電漿共振效應而有極優異的表現}

(7) Effect of Chemical Doping of Boron and Nitrogen on the Optical and Electrochemical Properties of Carbon Nanotubes, D. Jana*, C. L. Sun, L. C. Chen*, K. H. Chen, Progress in Materials Science 58, 565-635 (2013). [▲: 96] {有關硼或氮滲雜對奈米碳材的光電或電化學特性影響之回顧論文,登於材料領域權威性回顧期刊}

(8) Band Gap Engineering of Chemical Vapor Deposited Graphene by in-situ BN Doping, C. K. Chang, S. Kataria, C. C. Kuo, A. Ganguly, B. Y. Wang, J. Y. Hwang, K. J. Huang, W. H. Yang, Y. L. Liu, C. H. Chuang, M. Chen, C. I. Huang, W. F. Pong, K. J. Song, J. H. Guo, Y. Tai, M. Tsujimoto, S. Isoda, H. L. Chen, C. W. Chen, L. C. Chen*, K. H. Chen*, ACS Nano 7, 1333-1341 (2013). [▲: 97] {石墨烯作為未來電子元件的嚴苛挑戰之一是其零能距,本論文揭示以硼與氮共滲雜之三元石墨烯,其能距可提高至600 meV}

(9) Highly Efficient Visible Light Photocatalytic Reduction of CO2 to Hydrocarbon Fuels by Cu-NPs Decorated Graphene Oxide, I. Shown, H. C. Hsu, Y. C. Chang, C. H. Lin, P. Roy, A. Ganguly, C. H. Wang, J. K. Chang, C. I. Wu, L. C. Chen*, K. H. Chen*, Nano Letters 14, 6097-6103 (2014). [▲: 64] {以氧化石墨烯佈上奈米 銅,成功作出高效能之光觸媒,其轉換效率相較於商用之二氧化鈦有高達兩個數量級之增益,於可見光照射下將二氧化碳還原成低碳氫燃料,一石兩鳥解決環境與能源問題}

(10) Hybrid Bimetallic-N4 Electrocatalyst Derived from a Pyrolyzed Ferrocene-Co-corrole Complex for Oxygen Reduction Reaction, S. Samireddi, I. Shown, T. H. Shen, H. C. Huang, K. T. Wong, L. C. Chen*, K. H. Chen*, J. Materials Chemistry A 5, 9279-9286 (2017). {非貴重金屬之環大錯合物是發展新一代燃料電池之觸媒 電極的重要選項,本論文首創雙金屬之環大錯合物觸媒,兼具高活性與高穩定性}