| 黃柏仁 Bohr-Ran Huang |
|
|---|---|
| Position | |
| Distinguished Professor Dean of Graduate Institute of Electro-Optical Engineering | |
| Education | |
| Ph.D.Electrical Engineering, Michigan State University | |
| huangbr@mail.ntust.edu.tw | |
| Room | |
| EE T2-504-1 |
| Office Hours | Every Thursday AM10:00~PM14:00 |
|---|---|
| Telephone | 02-27303273 |
| Homepage | http://homepage.ntust.edu.tw/huangbr |
| Laboratory | Green Energy-Optoelectronic & Nano-Tech Thin Film |
| Major Field | Optoelectronic materials and devicesNano-materials and Nano-devices, Bio-photonics applications, Solar cell applications |
| Course | Electronic Materials, Microelectronic Processing Technologies, Semiconductor Physics and Devices , Nano-materials and Nano-device, Processing and Analyses technoligies for Nanoscience |
| 2015.02 ~ 2018.01 | National Taiwan University of Science and Technology, College of Electrical Engineering & Computer Science, Dean |
| 2012.07 ~ 迄今 | National Taiwan University of Science and Technology, Graduate Institute of Electro-Optical Engineering, Distinguished Professor |
| 2011.08 ~ 2015.01 | National Taiwan University of Science and Technology, College of Electrical Engineering & Computer Science, Associate Dean |
| 2007.08 ~ 2012.06 | National Taiwan University of Science and Technology, Graduate Institute of Electro-Optical Engineering, Professor |
| 2004.08 ~ 2007.07 | National Yunlin University of Science and Technology, Graduate Institute of Optoelectronic Engineering, Professor and Director |
| 2002.08 ~ 2005.07 | National Yunlin University of Science and Technology, Department of Electronic Engineering, Professor and Chairman |
| 2000.07 ~ 2007.07 | National Yunlin University of Science and Technology, Department of Electronic Engineering, Professor |
| 1992.08 ~ 2000.06 | National Yunlin University of Science and Technology, Department of Electronic Engineering, Associate Professor |
| 2013 | 中 國 電 機 工 程 學 會『傑 出 電 機 工 程 教 授 獎』 |
| 2013 | Fellow of Institute of Engineering and Technology (FIET) |
| 2012 | 國立台灣科技大學『優良研究及創作獎』傑出獎 |
| 2011 | Certificate of Merit for The 2011 International Conference of Electrical and Electronics Engineering WCE論文優良獎 |
| 2011 | 榮獲2011 台灣科技大學「研究及創作獎」優良獎 |
| 2010 | 榮膺Nnaotechnology (SCI Journal) 之committee of the Editorial Board |
| 2009 | 榮膺2009 Who’s Who in The World名人榜 |
| 2009 | 榮獲2009 台灣科技大學「研究及創作獎」優良獎 |
| 2006 | 榮膺 Outstanding Intellectuals of the 21st Century 名人榜 |
| 2006 | 榮膺 Who’s Who in The World名人榜 |
| 2006 | 榮膺 Who’s Who in Science & Engineering |
| 2006 | 榮膺 (Vol. 9) Asia/Pacific Who’s Who 名人榜 |
| 2006 | 榮獲2006 雲林科技大學工程學院「研究績優獎」 |
| 2006 | 榮膺 IBC Hall of Fame 名人榜 |
| 2005 | 雲嘉地區影像顯示科技專題實作競賽暨研討會-佳作 2件 |
| 2004 | The 3rd Asian CVD Conference Poster award (3 out of 130) |
| 2002 | 教育部資深優良教師獎 |
| 2002 | 榮獲中華民國真空協會九十一年度「真空科技論文獎 - 佳作」。 |
| 2002 | 榮獲 台灣電子材料與元件協會「傑出論文獎」 |
| 2000 | 榮獲「中國材料年會表面技術半導體及封裝材料海報論文」 |
| 1998 | 13. 指導大專學生參與專題研究計畫,榮獲研究創作獎 |
| 1992 | Member of Phi Beta Delta, Honor society for International schools. |
| 1990 | Member of Eta kappa Nu, Electrical Engineering Honor Society. |
Research Achievement
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| [11] | Ching-Lin Fan, Ming-Chi Shang, Shea-Jue Wang, Mao-yuan Hsia, Win-Der Lee, Bohr-Ran Hung, “Investigation Of Rapid Low-Power Microwave-Induction Heating Scheme On The Cross-linking Process Of The Poly(4-vinylphenol) For The Gate Insulator Of Pentacene-Based Thin-Film Transistors” |
| [12] | Deepa Kathiravan, Bohr-Ran Huang, and Adhimoorthy Saravanan, “Multifunctional sustainable materials: the role of carbon existing protein in the enhanced gas and UV sensing performances of ZnO-based biofilms” |
| [13] | Deepa Kathiravan, Bohr-Ran Huang, and Adhimoorthy Saravanan, “Self-Assembled Hierarchical Interfaces of ZnO Nanotubes/Graphene Heterostructures for Efficient Room Temperature Hydrogen Sensors” |
| [14] | Adhimoorthy Saravanan, Bohr-Ran Huang, Divinah Manoharan, and I-Nan Lin, “High-Performance Electron Field Emitters and Microplasma Cathodes Based on Conductive Hybrid Granular Structured Diamond Materials” |
| [15] | Deepa Kathiravan, Bohr-Ran Huang, Adhimoorthy Saravanan, Gerd Keiser, Chien-Jui Yeh, Keh-Chyang Leou and I-Nan Lin “Highly sensitive pH dependent acetone sensor based on ultrananocrystalline diamond materials at room temperature” |
| [16] | Adhimoorthy Saravanan, Bohr-Ran Huang, Divinah Manoharan, Deepa Kathiravan and I.-Nan Lin, “Engineered design and fabrication of long lifetime multifunctional devices based on electrically conductive diamond ultrananowire multifinger integrated cathodes” |
| [17] | Bohr-Ran Huang, Hui-Wen Chan, Shyankay Jou, Guan-Yu Chen, Hsiu-An Kuo, Wan-Jhen Song, “Structure and field emission of graphene layers on top of silicon nanowire arrays” |
| [18] | Kamatchi Jothiramalingam Sankaran, Bohr-Ran Huang, Adhimoorthy Saravanan, Divinah Manoharan, Nyan-Hwa Tai, I-Nan Lin, “Heterogranular Structured Diamond-Gold Nanohybrids: A New Long Life Electronic Display Cathode” |
| [19] | Min-Jyun Hong, Yong-Chen Lin, Liang-Chiun Chao, Pao-Hung Lin, Bohr-Ran Huang, “Cupric and cuprous oxide by reactive ion beam sputter deposition andthe photosensing properties of cupric oxidemetal–semiconductor–metal Schottky photodiodes” |
| [20] | Ching-Lin Fan, Ming-Chi Shang, Bo-Jyun Li, Yu-Zuo Lin, Shea-Jue Wang, Win-Der Lee, and Bohr-Ran Huang, “Teflon/SiO2 Bilayer Passivation for Improving the Electrical Reliability of Oxide TFTs Fabricated Using a New Two-Photomask Self-Alignment Process” |
| [21] | Bohr-Ran Huang, Jun-Cheng Lin, Tzu-Ching Lin, Yu-Jyun Chen, “Aggregated TiO2 nanotubes with high field emission properties” |
| [22] | Adhimoorthy Saravanan, Bohr-Ran Huang, Kamatchi Jothiramalingam Sankaran, Srinivasu Kunuku, Chung-Li Dong, Keh-Chyang Leou, Nyan-Hwa Tai, and I-Nan Lin, “Bias-Enhanced Nucleation and Growth Processes for Ultrananocrystalline Diamond Films in Ar/CH4 Plasma and Their Enhance Plasma Illumination Properties” |
| [23] | Bohr-Ran Huang, Ying-Kan Yang, Wen-Luh Yang, “Efficiency improvement of silicon nanostructure-based solar cells” |
| [24] | Bohr-Ran Huang, Ying-Kan Yang, Hsien-Lung Cheng, “Rice-straw-like structure of silicon nanowire arrays for a hydrogen gas sensor” |
| [25] | Bohr-Ran Huang, Ying-Kang Yang, Tzu-Ching Lin, Wen-Luh Yang, “A simple and low-cost technique for silicon nanowire arrays based solar cells” |
| [26] | C. H. Hsiao, S. J. Chang, S. B. Wang, S. P. Chang, T. C. Li, W. J. Lin, C. H. Ko, T. M. Kuan and B. R. Huang, “ZnSe Nanowire Photodetector Prepared on Oxidized Silicon Substrate by Molecular-Beam Epitaxy” |
| [27] | Shoou-Jinn Chang, Ting-Jen Hsueh, Cheng-Liang Hsu, Yan-Ru Lin, I-Cherng Chen, Bohr-Ran Huang, “A ZnO nanowire vacuum pressure sensor” |
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| [1] | Bohr-Ran Huang, Chien-Sheng Huang and S-K Jou, (reviewing chapter), "One-dimensional silicon and carbon nanostructures and their applications". Handbook of Nanoceramics and Their Based Nanodevices, American Scientific Publishers, Baker & Taylor Books. Oct, 15, 2008. |
| [2] | |
| [3] | |
| [4] | Bohr-Ran Huang, “Electrical Properties and Physical Characteristic of Polycrystalline Diamond Films Deposited in A Microwave Plasma Disk Reactor. “, Ph.D Dissertation, Michigan State University, 1992. |
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Research Achievement
| Title | Total Amount | Conduct From | Conduct Until | Client |
|---|---|---|---|---|
| Development of Diamond Coating System and Applications of Diamond Coatings | 1,704,000 | 10611 | 10710 | Ministry of Science and Technology |
| Investigation of Silicon-Based Hybrid Nanomaterial for Non-Enzyme Glucose Sensors | 1,266,000 | 10608 | 10707 | Ministry of Science and Technology |
| Improving Conversion Efficiency of Si-Based Solar Cells by Using a Micro/Nanoscale Hybrid Patterned Si Substrate | 410,000 | 10506 | 10605 | Ministry of Science and Technology |
| Silicon-Based Composite Nanostructures for Ph Sensors | 1,038,000 | 10408 | 10507 | Ministry of Science and Technology |
| The Development for Novel and Low-Cost Silicon Based Solar Cells | 1,002,000 | 10308 | 10407 | Ministry of Science and Technology |
| The Nanodiamond Composite Structure for Multi-Function Sensor Application | 650,000 | 10306 | 10405 | Ministry of Science and Technology |
| The development for mutifunctional sensing devices of nano carbon composite materials with low | 760000 | 10111 | 10210 | National Science Council |
| The development of a novel nano-composite plating technique for multifunctional optoelectronic | 2809000 | 10008 | 10307 | National Science Council |
| Fabrication of Arrayed Carbon nanotube Flexible Optoelectronic Devices using Metallic Glass Technologies | 808000 | 9908 | 10007 | National Science Council |
| The Synthesis of Large Area Silicon Nanowires and Devices Fabrication | 2523000 | 9608 | 9907 | National Science Council |
| The fabrication of nano-diamond field emitter display array and its application on gas sensors | 2086000 | 9508 | 9707 | National Science Council |
Student
| Academic Year | Thesis Title | Student |
|---|---|---|
| 102 | The Development of Optoelectronic and Sensing Devices Based on ZnO Hybrid-Structures | Jun-Cheng Lin |
| 102 | The Investigation of Silicon Nanostructures for Optoelectronic Devices | Ying-Kan Yang |
| 102 | Properties of coupled surface plasmon polaritons in metal-dielectric-metal structures and their potential application in opto-electronic devices | Chung-Chi Liao |
| 100 | The Development of Multifunctional Optoelectronic and Sensing Devices Based on CNTs/Ni Composite Structure | Tzu-Ching Lin |
| 98 | The Field Emission Characteristics of Carbon-Based Materials | Chun-Shin Yeh |
| 95 | Synthesis and application of the silicon nanowires | Jung-Fu Hsu |
| Academic Year | Thesis Title | Student |
|---|---|---|
| 105 | Synthesize and Characterization of ZnO Nanotubes/ Cu-based Metallic Glass Thin Film hybrid Photodetectors | You-Syuan Chen |
| 105 | Influence of AlN Layer Thickness on Passivation Effect for N-type Silicon Substrate | Po-Ting Sung |
| 105 | Enhance light diffuse reflactance of silicon substrate using a micro/ nano-scale hybrid stucture | Ching-Wen Chiu |
| 105 | Graphene-ZnO/ UNCD hybrid nanostructure for photodetectors | Hung-Chih Lu |
| 105 | Three-dimension nickel hydroxide mesh with graphene for non-enzymatic glucose sensors | Che-Wei Wu |
| 105 | Enhanced Photoresponse of UV Phototdetector Based on Ni/CNT-Doped ZnO Nanorods | Ilmiatul Masfufiah |
| 103 | Bi-layer ZnO Nanotubes/Ultra-nanocrystalline Diamond Films for UV photodetectors | Ruei-Hong Liou |
| 103 | The fabrication of pH sensor based on nanodiamond and silicon nanowires | Yu-Kang Wang |
| 103 | Non-enzymatic glucose sensors based on nickel hydroxide, copper oxide on onductive diamond structures | Hong-Hui Zhang |
| 103 | The field emission properties for graphene and nano-diamond on different silicon nanostructures | Guan-Yu Chen |
| 103 | The Study of Silicon Nanostructures for field emission and solar cell devices | Chao-Wei Tu |
| 102 | The gas sensing application of graded TiO2 nanotubes by multi-step anodization | Jia-cheng Ma |
| 102 | The analysis for the pyramid and trapezoid structure of silicon-based solar cells | Han-wun Syu |
| 102 | Bi-Layer Structures of Tungsten oxide/Graphene for Improving Performance of Electrochromic Device | Bing-kuan Wu |
| 102 | Bi-layer structure of ZnO Nanorod/Nano Diamond Film for photodetector | Yu-Hsiang Pong |
| 101 | Nano/Micro crystalline diamond on silicon-based templates for field emission studies | Xuan-Bo Wong |
| 101 | The application of TiO2 nanotubes coated with graphene nanostructure | Yu-Jyun Chen |
| 101 | Graphene stacks on silicon-based templates for field emission studies | Hui-Wen Chan |
| 101 | Structures of Tungsten Oxide/Titanium Oxide for Multi-Functional Smart Window Applications | Ying-Ming Liu |
| 101 | The analysis for the nanowire/pyramid structure of silicon-based solar cells | Jeng-Han Jang |
| 100 | Emission Properties of Zinc Oxide/Zinc Tungstate Composite Nanorods | Kuo-Ting Chu |
| 100 | Synthesis of Tungsten Oxide Thin Film and Nanowires For Highly Improved Electrochromic Smart Windows | Tomy Abuzairi |
| 100 | The study for the pyramid structure of silicon based solar cells | Chun-Hao Hsu |
| 100 | One-dimensional silicon nanostructure for hydrogen gas sensor | Hsien-Lung Cheng |
| 100 | Photoelectrochemical properties of III-V Nitride Based Semiconductors grown by plasma-assisted molecular beam epitaxy system | Yi-Jen Huang |
| 100 | On the fabrication and Characterization of flip-chip power light emitting diode with backside reflector | Wen-Yu Kuo |
| 100 | The pH sensor based on carbon nanotube/indium oxide composite thin film | Yuan-Pin Lo |
| 99 | The investigation of hydrogen ion sensor based on nanocrystalline diamond film | Jian-Wei Ye |
| 99 | Synthesis and characterization of tungsten oxide thin film by Sol-Gel method and its optoelectronic properties | Chia-Yi Lin |
| 99 | Fabrication of electrochromic tungsten oxide thin film by electrodeposition method assisted with zinc oxide nanwires | Chang-An Tsao |
| 98 | Fabrication of oxide-capping GaN nanotips using iodine-assisted focused ion beam etching technique | Bo-Cheng Lin |
| 98 | N4-marcocycle catalyst for DMFC application and its XAS analysis | Wen-shian Lei |
| 97 | The study of arrayed nano-crystalline diamond devices | Yao-Ming Wu |
| 97 | Synthesis and characteristic of the silicon-based nanostructure | Chi-Yin Ho |
| 97 | The Synthesis and Characteristic Studies on Tungsten Oxide Nanowires | Jun-Cheng Lin |
| 97 | A study on the properties of composite structure of ZnO nanowires and nanocrystalline diamond thin films | Shu-An He |
| 96 | The study on the ionization gas sensor of the nanocrytalline diamond films | Wei-Ru Chen |
| 96 | The study on the optoelectronic properties of silica nanowires | Shin-Chih Hung |
| 96 | Growth and characterizations of noble metal nanoparticles embedded silica nanowire | Sheng-Bo Wang |
| 95 | The Application of Silica Nanowires for Gas sensors | Chih-Huang Li |
| 95 | Growth Nanodiamond on different metal layers of field of emission characteristic and its application | Jen-Yuan Mao |
| 95 | The study on the effects of the blue light OLEDs and its packaging | Huai-En Hsieh |
| 95 | Novel Technique for Transforming Nanowire Materials into Field Emission Metal Cathode | Chih-Chia Chang |
| 94 | The effect of field emission on CNTs for N2 detection | Meng-Hsien Tsai |
| 94 | The Synthesis of Nanodiamond Film and Its Applications | Meng-Chang Wu |
| 94 | A New Negative Ion Generator Using ZnO Nanowire Array | Chin-Han Chen |
| 94 | The study of characteristics of carbon nanotubes on Nanocomposites Optoelectronic Device | Yueh-Feng Lu |
| Academic Year | Project Title | Student |
|---|---|---|
| 98 | 利用直接加熱法成長β-SiC特性結構 | 謝耀德 |
| 97 | SiO2奈米線合成與光電特性分析 | 張峻源 |
| 96 | 在鍍鉻之矽基板上成長奈米鑽石薄膜之特性研究 | 蔡振睿, 江彥威 |
| 96 | Low cost device process of Dye Sensitized Solar Cells | Yu-Lin Huang, Chen-Huan Yuan |
| 96 | Zinc Oxide nanostructure characterization of field emission on differential substrate | 蔡坤喜, 黃靖旂 |
| 96 | 催化劑電漿前處理對奈米碳管氣體感測及場發射特性研究 | 賴冠廷, 李英彰 |
| 95 | 奈米鑽石成長於鈦基板上之場發射特性研究 | 蔡昇儒, 陳昆岐 |
| 95 | 氧化鋅奈米結構的成長及應用 | 陳奎廷, 謝一民 |
| 95 | The growth of anodic aluminum oxide and its application | 陳怡如, 廖漢忠 |
| 95 | The effect on properities of the gas ionization sensor by different growth time of the silica nanowires | 鍾瑋帝, 陳岳辰 |
| 95 | 無電鍍鎳熱氣相法生成奈米碳管轉印於導電基板上形成陣列型場發射元件之研究 | 黃柏豪, 陳俞孝 |
| Year | Deeds |
|---|---|
| 2005 | 雲嘉地區影像顯示科技專題實作競賽暨研討會-佳作 2件 |
| 2004 | The 3rd Asian CVD Conference Poster award (3 out of 130) |
| 2002 | 榮獲中華民國真空協會九十一年度「真空科技論文獎 - 佳作」 |
| 2002 | 榮獲 台灣電子材料與元件協會「傑出論文獎」 |
| 2000 | 榮獲「中國材料年會表面技術半導體及封裝材料海報論文」 |
| 1998 | 指導大專學生參與專題研究計畫,榮獲研究創作獎 |