林寬鋸的資訊網頁

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姓名
林寬鋸
職稱
教授
系所
化學系
電話
04-22840411-802
郵件
kjlin@dragon.nchu.edu.tw
傳真
04-22862547
辦公室
論文與著作 Papers and Publications
期刊 Journal
篇名 下載
1

Wen-Yin Ko, You-Feng Chen, Ke-Ming Lu, Kuan-Jiuh Lin*.Porous honeycomb structures formed from interconnected MnO2 sheets on CNT coated substrates for flexible all solid state supercapacitors. Scientific Reports.2016,6 18887, 7 pages

2

Yen, Yin-Cheng; Chen, Jing-Zhi; Lu, Yu-Jung; Gwo, Shangjr; Lin, Kuan-Jiuh*. Chain-network anatase/TiO2 (B) thin film with improved photocatalytic efficiency. Nanotechnology. 2014,25, 235602-235609

3

Wen-Yin Ko, Lung-Jing Chen, Yu-Hung Chen, and Kuan-Jiuh Lin*. Solvothermal Synthesis of Shape-Controlled Manganese Oxide Materials and Their Electrochemical Capacitive Performances. Journal of Materials Research. 2014,29,117-114

4

Wen-Yin Ko and Kuan-Jiuh Lin*. Highly Conductive, Transparent Flexible Films Based on Metal Nanoparticle–Carbon Nanotube Composites. Journal of Nanomaterials. 2013,Article ID 505292, 16 pages

5

Yin-Cheng Yen, Wen-Yin Ko, Jing-Zhi Chen, and Kuan-Jiuh Lin*. Enhancing the Performance of Dye-Sensitized Solar Cells Based on TiO2 Nanotube/Nanoparticle Composite Photoanodes. Electrochimica Acta. 2013,105,142-148

6

Wen-Yin Ko, Lung-Jing Chen, Yu-Hung Chen, Wei-Hung Chen, Ke-Ming Lu, Jin-Ru Yang, Yin-Cheng Yen, and Kuan-Jiuh Lin*. One-Step Solvothermal-Processed 3D Spinel-type Manganese Oxide Microspheres and Their Improved Supercapacitive Properties. Journal of Physical Chemistry C. 2013,117,16290−16296

7

Wen-Yin Ko, Jun-We Su, Chian-Hua Guo and Kuan-Jiuh Lin*. Extraordinary Mechanical Flexibility in a Nanocomposite Thin Films Composed of AgPt Bimetallic Nanoparticle-decorated Multi-Walled Carbon Nanotubes. Carbon. 2012,50,2244 – 2251

8

Wen-Yin Ko, Kuan-Jiuh Lin*. Shape-Controlled Synthesis of Metallic Nanoparticles: Electrodeposition of Copper. Complex-Shaped Metal Nanoparticles. 2012,Chapter 4, 167-182

9

Lung-Jing Chen, Wen-Yin Ko, Yu-Hung Chen and Kuan-Jiuh Lin*. Schist-like Nanostructured Manganese Oxides and Their Electrochemical Capacitance Properties. J. Chin. Chem. Soc. 2012,59,149 – 153

10

Wen-Yin Ko, Jun-Wei Su, and Kuan-Jiuh Lin*. Sonophysically Exfoliated Individual Multi-Walled Carbon Nanotubes in Water Solution and Their Straightforward Route to Flexible Transparent Conductive Films. Carbon Nanotubes Applications on Electron Devices Chapter. 2012,14,333 – 350

11

Yi Zhang, Yunfang Tang, Yi-Heui Hsieh, Chuen-Yuan Hsu, Jianzhong Xi, Kuan-Jiuh Lin* and Xingyu Jiang. Towards a high-throughput label-free detection system combining localized-surface plasmon resonance and microfluidics. Lab on a Chip. 2012,12,3012-3015

12

Jing-Zhi Chen, Wen-Yin Ko, Yin-Cheng Yen, Po-Hung Chen, and Kuan-Jiuh Lin*. Hydrothermally Processed TiO2 Nanowire Electrodes with Antireflective and Electrochromic Properties. ACS Nano. 2012,6,6633-6639

13

Chuen-Yuan Hsu, Jing-Wen Huang and Kuan-Jiuh Lin*. High sensitivity and selectivity of human antibody attachment at the interstices between substrate-bound gold nanoparticles. Chem. Commun. 2011,47, 872–874

14

Yi-Xuan Hong, Watson Kuo and Kuan-Jiuh Lin*. Nonvolatile gating effects on radicals-containing vanadium oxide nanowires by gas molecule absorption and diffusion. Nanotechnology. 2011,22,115501

15

Jing-Zhi Chen, Yin-Cheng Yan, Wen-Yin Ko, Ching-Yuan Chen and Kuan-Jiuh Lin*. The Role of Fabrication of Anatase TiO2 Chain-Networked Photoanodes. Adv. Mater. 2011,23,3970–3973

16

Wen-Yin Ko, Jun-Wei Su, Chian-Hua Guo, Shu-Juan Fu, Chuen-Yuan Hsu and Kuan-Jiuh Lin*. Highly conductive, transparent flexible films based on open rings of multi-walled carbon nanotubes. Thin Solid Films. 2011,519,7717–7722

17

Jing-Zhi Chen, Yin-Cheng Yan, Wen-Yin Ko, Ching-Yuan Chen and Kuan-Jiuh Lin*. The Role of Fabrication of Anatase TiO2 Chain-Networked Photoanodes. Adv. Mater. 2011,23,3970-3973

18

Chuen-Yuan Hsu, Jing-Wen Huang and Kuan-Jiuh Lin*. High sensitivity and selectivity of human antibody attachment at the interstices between substrate-bound gold nanoparticles. Chem. Comm. 2011,47,872-874

19

Nujiang Tang,* Jianfeng Wen, Yang Zhang, Fanxin Liu, Kuan-Jiuh Lin* and Youwei Du. Helical Carbon Nanotubes: Catalytic Particle Size-Dependent Growth and Magnetic Properties. ACS Nano. 2010,4,241-250

20

Wen-Yin Ko, Wei-Hung Chen, Ching-Yuan Cheng, Kuan-Jiuh Lin*. Highly Electrocatalytic Reduction of Nitrite Ions on a copper nanoparticle thin film. Sensors & Actuators B: Chemical. 2009,137,437-441

21

Tang, Nu-Jiang*; Yang, Yi; Lin, Kuan-Jiuh*; Zhong, Wei*; Au. Synthesis of Plait-Like Carbon Nanocoils in Ultrahigh Yield, and Their Microwave Absorption Properties. Journal of Physical Chemistry C. 2008,112,10061-10067

22

Cheng, Ching-Yuan; Lin, Kuan-Jiuh*; Prasad, Muppa R.; Fu, Shu-Juan; Chang, Sheng-Yueh; Shyu, Shin-Guang; Sheu, Hwo-Shuen; Chen, Chia-Hao; Chuang, Cheng-Hao; Lin, Minn-Tsong. Synthesis of a reusable oxotungsten-containing SBA-15 mesoporous catalyst for the organic solvent-free conversion of cyclohexene to adipic acid. Catalysis Communications. 2007,8,1060-1064

23

Li, Lu-Lin; Lin, Kuan-Jiuh*; Ho, Chin-Jun; Sun, Chia-Pin; Yang, Hung-Duen. A coordination pi-pi framework exhibits spontaneous magnetization. Chemical Communications.2006,12,286-1288

24

Ko, Wen-Yin; Chen, Wei-Hung; Tzeng, Shien-Der; Gwo, Shangjr; Lin,Kuan-Jiuh*.Synthesis of Pyramidal Copper Nanoparticles on Gold Substrate.Chemistry of Materials.2006,18,6097-6099

25 Lin, Kuan-Jiuh. “Tailor the cage geometries of hybrid organic–inorganic molecular sieves” Heart Cut: The website of American Chemical Society, June, 9, 2003
26 Hong, Bor-Cherng*; Chen, Shang-Hung; Kumar, Ellappan Sampath;Lee,Gene-Hsiang; Lin, Kuan-Jiuh. Intramolecular [2+2] photocycloaddition-fragmentation: Facile entry to a novel tricyclic 5-6-7 ring system. Journal of the Chinese Chemical Society, (2003), 50(4), 917-926.
27 Li, Lu-Lin; Yang, Chia-Jung; Chen, Wei-Hung; Lin, Kuan-Jiuh*. Towards the development of electrical conduction and lithium-ion transport in a tetragonal porphyrin wire. Angewandte Chemie, International Edition (2003), 42(13), 1505-1508.
28 Cheng, Ching-Yuan; Fu, Shu-Juan; Yang, Chia-Jung; Chen, Wei-Hung; Lin, Kuan-Jiuh*; Lee, Gene-Hsiang; Wang, Yu. NCHU-3: A crystalline inorganic-organic hybrid molecular sieve with extra-large cages. Angewandte Chemie, International Edition (2003), 42(17), 1937-1940.
29

Lin, Kuan-Jiuh,* Fu, Shu-Juan; Cheng, Ching-Yuan; Chen, Wei-Hung; Kao, Hsien-Ming, Towards electrochemical artificial muscles:A supramolecular machine based on a one-dimensional copper-containing organophosphonate system. Angewandte Chemie, International Edition (2004), 43, 4186 – 4189

30

Lin, Kuan-Jiuh*; Chen, Lung-Jing; Prasad, Muppa Ramakrishna; Cheng, Ching-Yuan. Core-shell synthesis of a novel, spherical, meso porous silica/platinum nanocomposites: Pt/PVP@MCM-41. Advanced materials (2004), 16, 1845 – 1849

31

莊惠如、林寬鋸, 奈米科技史–鑽石之路(2004), 215-23, 博學

32 李陸玲、林寬鋸,一維軟性物質之世界, (2004), 26,465-472, 物理雙月刊
33 傅淑娟、陳威宏、林寬鋸, 一維次人造機器之近期發展,(2004), 6,1-10, 化學期刊
34 傅淑娟、林寬鋸, 一維次超分子材料之前瞻及其應用, (2004), 16,86-88 自然科學簡訊
35 林寬鋸, 奈米複合材料合成方法, 92005),58, 8 -10, 國家同步輻射研究中心簡訊
36 Lee, Fang-Yuan; Huang, Jiann-Jyh; Chen, Yu-Ju; Lin, Kuan-Jiuh; Lee, Gene-Hsiang; Peng, Shie-Ming; Hwu, Jih Ru; Lu, Kuang-Lieh *. Os(CO)2(?2-SC5H4N(O))(?2-SC5H4N): structural evidence for the transformation of pyridine-2-thione N-oxide to pyridine-2-thiolate in osmium complexes. Journal of Organometallic Chemistry (2005), 690(2), 441-449.

國內、外研討會 Seminar
篇名 下載
1 August 10 – 16, 2003, “39th IUPAC” Ottawa, Canada. “NCHU-3: A Crystalline Iorganic-Organic Hybrid Molecular Sieve with Extra-Large Cages”.
2 Feb. 19 – 26, 2004, US force/Taiwan Nanoscience Initiative Workshop, Maui, HI. “ Towards Electrochemical Artificial Muscles”
3

June 14 -18, 2004 “ Sixth International Symposium on Functional π-electron systems”, Ithaca, New York, “ A New Electrochemical Artificial Muscle Based on One-Dimensional Redox Copper-Containing Organophosphonate”

4 September 12 – 17, 2004 “Solid State Chemistry 2004”, Prague, Czech Republic. “Disordered Sp2 hybridization in mixed Mn(II/III) nanotubes”
5 June 12 – 19, 2005, “Gordon Research Conference: Supramolecular Chemistry and Sefl-Assembly”, Colby College, USA.
6 August 23 – 31, 2005, “XX Congress of the International Union of Crystallography”

其他 Others
篇名 下載
1

◎得獎記錄

● Junior Research Faculty Award of National Chung-Hsing University (中興大學青年教師研究獎), 2004

● National Science Council Wu Da-Yuo Award (國科會吳大猷獎), 2004

● Junior Outstanding Research Award of Chemical Association of Chinese (中國化學會青年傑出獎), 2004

● Y. Z. Hsu Outstanding Scientific Paper Award for Nanoscience and Technology, 2005 (Far Easterm Foundation) (徐有庠奈米科技論文獎)

2

◎發明專利

● 以金屬奈米粒子修飾二氧化鈦奈米線基板之方法及其應用 , 台灣 , 林寬鋸;顏吟赬;陳柏宏;陳昭安 , 專利號碼I517418 , 2016-2034

● 於可透光基材上合成銳鈦礦二氧化鈦(anatase TiO)奈米結構的方法 , 台灣 , 林寬鋸;陳景智;顏吟赬;陳柏宏 , 專利號碼 I491577 ,2015-2036

● 有孔洞形錳氧化物之軟性基材及其製法與應用 , 台灣 , 林寬鋸;柯玟吟;盧克銘 , 專利號碼 I485732 , 2015-2033

●感測方法 , 台灣 , 林寬鋸;許純淵;陳威宏;謝怡慧;蔡晴雯;江筠婷;張家瑜 , 專利號碼 I486571 , 2015-2034

●感測裝置 , 台灣 , 林寬鋸;許純淵;陳威宏;謝怡慧;蔡晴雯;江筠婷;張家瑜 , 專利號碼 I486571 , 2014-2024

● 具親水性之經修飾II-VI族量子點及其製法 , 台灣 , 林寬鋸;傅淑娟 , 專利號碼 I453161 , 2014-2029

● 超級電容器,該超級電容器之電極材料,該電極材料的製造方法 , 台灣 , 林寬鋸;陳昱宏;柯玟吟 , 專利號碼 I446382 , 2014-2032

● 球型錳氧化物材料及其製法 , 台灣 , 林寬鋸;陳隆京 , 專利號碼 I427040 , 2014-2031

● 二氧化鈦網狀結構材料,太陽能電池元件及其製造方法 , 台灣 , 林寬鋸;顏吟赬;陳景智 , 專利號碼 I429596 , 2014-2030

● 無機材奈米粒子的製法及應用該製法的裝置 , 台灣/中國大陸 , 林寬鋸;許純淵 , 專利號碼 I429492/CN101804962A , 2014-2029

● 可見光穿透率高之透明導電玻璃及其製作方法 , 台灣 , 林寬鋸;許純淵 , 專利號碼 I410324 , 2013-2031

●結合有金屬奈米粒子之奈米碳管複合物導電薄膜的製法 , 台灣 , 林寬鋸;蘇峻葦 , 專利號碼 I414481 , 2013-2030

●發光材料及其製法 , 台灣 , 林寬鋸;傅淑娟;黃東慶 , 專利號碼 I406926 , 2013-2030

● 生化感測晶片基板及其製法 , 台灣 , 林寬鋸;許純淵 , 專利號碼 I404930 , 2013-2029

● 具有金屬網絡的玻璃製品及其製造方法 , 台灣 , 林寬鋸;許純淵 , 專利號碼 I402240 , 2013-2030

● 分離奈米碳管的方法及其應用裝置 , 台灣 , 林寬鋸;蘇峻葦 , 專利號碼 I400194 , 2013-2028

● 轉印式奈米碳管導電薄膜的製造方法 , 台灣 , 林寬鋸;蘇峻葦;許瑛珍;郭千華 , 專利號碼 I383949 , 2013-2028

● 奈米碳管導電薄膜的製造方法 , 台灣 , 林寬鋸;蘇峻葦;許瑛珍 , 專利號碼 I384496 , 2013-2028

● 金屬材質圖案之製法 , 台灣/中國大陸 , 林寬鋸;許純淵 , 專利號碼 I383055/ CN101805904A , 2013-2029

● 量測抗壞血酸之感測電極及其製法 , 台灣 , 林寬鋸;蔡文瑜 , 專利號碼I383145 , 2013-2029

● 單層金屬奈米粒子薄膜之製法 , 台灣 , 林寬鋸;陳盈秀 , 專利號碼 I377270 , 2012-2029

● 量測抗壞血酸之感測電極及其製法 , 台灣 , 林寬鋸;蔡文瑜 , 專利號碼 I383145 , 2013-2029

● 量測葡萄糖之感測電極及其製法 , 台灣 , 林寬鋸;朱千慧 , 專利號碼 I373325 , 2012-2029

● 分散奈米碳管於水中之方法及其檢測試劑 , 台灣 , 林寬鋸;蘇峻葦 , 專利號碼 I336315 , 2013-2028

● 無電極式光源 , 台灣 , 林寬鋸;蘇峻葦 , 專利號碼 I317959 , 2009-2025

● 於水溶液中快速偵測亞硝酸鹽之方法 , 台灣 , 林寬鋸;柯玟吟 , 專利號碼 I314646 , 2009-2025

● 摻雜有機自由基分子之金屬氧化物奈米線及其製造方法 , 台灣 , 林寬鋸 , 專利號碼 I310024 , 2009-2026

● 有機金屬沸石 , 台灣 , 林寬鋸 , 專利號碼 I178661 , 2003-2019

● METHOD FOR FORMING A METAL PATTERN , USA , Kuan-Jiuh Lin、Chuen-Yuan Hsu , 專利號碼 US8697196 B2 , 2010-2030

● Method for fabricating a biosensor chip and the biosensor chip made by thereby , USA , Kuan-Jiuh Lin、Chuen-Yuan Hsu , 專利號碼 US8663554 B2 , 2015-2035

● Method for making a conductive film of carbon nanotubes , USA , Kuan-Jiuh Lin、Jun-Wei Su、Chuen-Yuan Hsu , 專利號碼 US8202568 B2 , 2012-2032

● Method for fast dispersing carbon nanotube in aqueous solution , USA , Kuan-Jiuh Lin、Jun-Wei Su , 專利號碼 US7999028 B2 , 2011-2031

● Microwave Plasma Generator , USA , Kuan-Jiuh Lin、Jun-Wei Su、Chuen-Yuan Hsu , 專利號碼 US7714248 B2 , 2010-2030

● Electrodeless light source from conducting inorganic carbide , USA , Kuan-Jiuh Lin、Jun-Wei Su , 專利號碼 US7768185 B2 , 2010-2030

● CNT/polymer composite and method for producing the same , USA , Kuan-Jiuh Lin、Jun-Wei Su , 專利號碼 US7799861 B2 , 2010-2030

● CNT卅рэсみ複合材料れプヂガソ製造方法 , 日本 , Kuan-Jiuh Lin、Jun-Wei Su , 專利號碼 JP 5248046 B2、JP2008001898 A , 2013-2033

 

◎新型專利

● 具優良可撓性之奈米碳管導電薄膜的製造方法 , 台灣 , 林寬鋸;蘇峻葦;許瑛珍 , 專利號碼 M488629 , 2014-2028

3

◎技術轉移

  • 高再現性Au-LSPR 晶片的製備、元件開發與其醫療檢測之應用 (1/2)   
    授權/被授權:國立中興大學/希華晶體科技股份有限公司
    計畫編號:NSC 101-2622-M-005-002-CC2
    (101/06/01~102/05/31)
  • 高再現性Au-LSPR 晶片的製備、元件開發與其醫療檢測之應用 (2/2)   
    授權/被授權:國立中興大學/希華晶體科技股份有限公司
    計畫編號:NSC 102-2622-M-005-002-CC2
    (102/06/01~103/05/31)
  • 無機材奈米粒子的製法及應用該製法的裝置授權/被授權:國立中興大學/希華晶體科技股份有限公司
    計畫編號:NSC 102-2622-M-005-002-CC2
    (104/01/29)
4

◎研究計畫

  • 電動自行車先進片層技術所帶動之社會經濟效益-電動自行車先進片層技術所帶動之社會經濟效益(1/3) (104-2627-M-005-001-)
  • 抗反射電極於能源元件上之效率提升(104-2113-M-005-011-MY3)
  • 突破繞射極限之奈米電漿光子學研究(4/4)(104-2628-M-007-001-)
  • 突破繞射極限之奈米電漿光子學研究(3/4)(103-2628-M-007-001-)
  • 突破繞射極限之奈米電漿光子學研究(2/4)(102-2628-M-007-001-)
  • 高再現性Au-LSPR晶片的製備、元件開發與其醫療檢測之應用-高再現性Au-LSPR晶片的製備、元件開發與其醫療檢測之應用(2/2)(102-2622-M-005-001-CC2)
  • 突破繞射極限之奈米電漿光子學研究(1/4)(101-2628-M-007-006-)
  • 開發新穎混成高分子無機半導體材料太陽電池(101-2113-M-005-014-MY3)
  • 開發新穎混成高分子無機半導體材料太陽電池(101-2738-M-005-002-)
  • 高再現性Au-LSPR晶片的製備、元件開發與其醫療檢測之應用-高再現性Au-LSPR晶片的製備、元件開發與其醫療檢測之應用(1/2)(101-2622-M-005-002-CC2)
  • 奈米粒子陣列混成材料在奈米光子及電子技術之應用(3/3)(100-2120-M-007-001-)