奈米材料合成與應用Synthesis and Applications of Nanomaterials
2
綠色能源材料Green-energy Materials
3
生醫感測Biomedical Sensing
4
材料分析Material Analysis
學歷
學歷
畢業學校
主修學門系所
學位
時間(起)
時間(迄)
1
清華大學
材料科學與工程學系
博士
2003-09
2007-07
2
清華大學
原子科學系
碩士
2001-09
2003-06
3
東海大學
化學系
學士
1997-09
2001-06
校內經歷
校內經歷
服務系所
職稱
時間(起)
時間(迄)
1
材料科學與工程學系
教授
2019-08
迄今
2
材料科學與工程學系
副教授
2016-08
2019-07
3
材料科學與工程學系
助理教授
2015-02
2016-07
4
材料科學與工程學系
助理教授
2013-08
2015-01
5
材料研究中心
主任
2020-08
2021-07
6
材料科學與工程學系
系主任
2020-08
2021-07
校外經歷
校外經歷
服務機關
服務單位
職稱
時間(起)
時間(迄)
1
交通大學
材料科學與工程學系
博士後研究人員
2011-01
2013-07
2
清華大學
材料科學與工程學系
博士後研究人員
2008-08
2010-12
3
陸軍通訊電子資訊學校
教勤連
助教
2007-09
2008-06
發表期刊論文
發表期刊論文
1
G.J. Lee, Y.H. Hou, C.Y. Chen, C.Y. Tsay, Y.C. Chang, J.H. Chen, T.L. Horng, S. Anandan, and J.J. Wu*,
"Enhanced Performance for Photocatalytic Hydrogen Evolution Using MoS2/graphene Hybrids,"
International Journal of Hydrogen Energy,Vol. 46, PP.5938-5948,
2021-01.
(SCI)
2
Tung-Hao Chang, Yu-Cheng Chang*, Shuo-Hsiu Wu,
"Ag nanoparticles decorated ZnO: Al nanoneedles as a high-performance surface-enhanced Raman scattering substrate,"
Journal of Alloys and Compounds,843, 156044,
2020-11.
(SCI)
3
Yu-Cheng Chang*, Yu-Wen Lin,
"MoS2@SnO2 core-shell sub-microspheres for high efficient visible-light photodegradation and photocatalytic hydrogen production,"
Materials Research Bulletin,129, 110912,
2020-09.
(SCI)
4
Yu-Cheng Chang*, Jai-Cing Lin, Chia-Man Chou,
"H2Ti3O7 nanowires as a high-performance photocatalytic and surface-enhanced Raman scattering substrate,"
Journal of Photochemistry and Photobiology A: Chemistry,400, 112666,
2020-09.
(SCI)
5
Yu-Cheng Chang*, Chao-Chun Hsu,
"Synergetic effect of carbon black as co-catalyst for enhanced visible-light photocatalytic activity and stability on ZnO nanoparticles,"
Solid State Sciences,107, 106366,
2020-09.
(SCI)
6
Y.-S. Li, A. Fang, G.-J. Lee, J. J. Wu, Y.-C. Chang, C.-Y. Tsay, J.-H. Chen, T.-L. Horng, C.-Y. Chen*,
"Preparation and photocatalytic properties of heterostructured ceria/polyaniline nanoparticles,"
Catalysts,10(7), 732,
2020-07.
(SCI)
7
Yu-Cheng Chang*, Shuo-Hsiu Wu,
"Bi-functional Al-doped ZnO@SnO2 heteronanowires as efficient substrates for improving photocatalytic and SERS performance,"
Journal of Industrial and Engineering Chemistry,76, 333-343,
2019-08.
(SCI)
8
Yu-Cheng Chang*, Jin-YouGuo,
"Double-sided plasmonic silver nanoparticles decorated copper oxide/zinc oxide heterostructured nanomaces with improving photocatalytic performance,"
Journal of Photochemistry and Photobiology A: Chemistry,378, 184-191,
2019-06.
(SCI)
9
Tung-Hao Chang, Yu-Cheng Chang*, Chien-Ming Chen, Kai-Wei Chuang, Chia-Man Chou,
"A facile method to directly deposit the large-scale Ag nanoparticles on a silicon substrate for sensitive, uniform, reproducible and stable SERS substrate,"
Journal of Alloys and Compounds,782, 887-892,
2019-04.
(SCI)
10
Tung-Hao Chang, Yu-Cheng Chang*, Chien-Ming Chen, Kai-Wei Chuang,
"Optimizing pyramidal silicon substrates through the electroless deposition of Ag nanoparticles for high-performance surface-enhanced Raman scattering,"
Thin Solid Films,676, 108-112,
2019-04.
(SCI)
11
K.-S. Jian, C.-J. Chang, J. J. Wu, Y.-C. Chang, C.-Y. Tsay, J.-H. Chen, T.-L. Horng, G.-J. Lee, L. Karuppasamy, S. Anandan, C.-Y. Chen*,
"High Response CO Sensor Based on a Polyaniline/SnO2 Nanocomposite,"
Polymers,11(1), 184,
2019-01.
(SCI)
12
Yu-Cheng Chang,* Chao-Chun Hsu, Shuo-Hsiu Wu, Kai-Wei Chuang, Yu-Fan Chen,
"Fabrication of Cu-doped ZnO nanoneedles on different substrate via wet chemical approach: Structural characterization and photocatalytic performance,"
Applied Surface Science,447, 213–221,
2018-07.
(SCI)
13
Yu-Cheng Chang,* Jai-Cing Lin, Shuo-Hsiu Wu,
"One-step growth of Na2Ti3O7 nanorods for enhanced photocatalytic activities and recyclability,"
Journal of Alloys and Compounds,749, 955-960,
2018-06.
(SCI)
14
Yu-Cheng Chang,* Jai-Cing Lin, Ssu-Ying Chen, Ling-Ya Hung, Ying-Ru Lin, Chin-Yi Chen,
"Complex SnO2 nanoparticles and nanosheets with enhanced visible-light photocatalytic activity,"
Materials Research Bulletin,100, 429-433,
2018-04.
(SCI)
15
Yu-Cheng Chang,* Chien-Ming Chen, Jin-You Guo,
"Fabrication of novel ZnO nanoporous films for efficient photocatalytic applications,"
Journal of Photochemistry and Photobiology A: Chemistry,356, 340-346,
2018-04.
(SCI)
16
Yu-Cheng Chang,* Jin-You Guo, Chien-Ming Chen,
"Double-sided plasmonic Au nanoparticles on Cu-doped ZnO/ZnO heterostructures with enhanced photocatalytic activity,"
Materials Letters,209, 60-63,
2017-12.
(SCI)
17
Chia-Man Chou, Yu-Cheng Chang,* Pei-Shih Lin, Fu-Ken Liu,
"Growth of Cu-doped ZnO nanowires or ZnO-CuO nanowires on the same brass foil with high performance photocatalytic activity and stability,"
Materials Chemistry and Physics,201, 18-25,
2017-11.
(SCI)
18
Chia-Man Chou, Yu-Cheng Chang,* Pei-Shih Lin, Fu-Ken Liu,
"Cu-doped ZnO nanowires as highly efficient continuous-flow photocatalysts for dynamic degradation of organic pollutants,"
Journal of Photochemistry and Photobiology A: Chemistry,347, 1-8,
2017-10.
(SCI)
Yu-Cheng Chang*,
"Modulating the morphology of ZnO nanotower arrays by replenishing of the reaction precursors and their photodegradation properties,"
Materials Letters,201, 18-21,
2017-08.
(SCI)
21
Yu-Cheng Chang,* Pei-Shih Lin, Fu-Ken Liu, Jin-You Guo, Chien-Ming Chen,
"One-step and single source synthesis of Cu-doped ZnO nanowires on flexible brass foil for highly efficient field emission and photocatalytic applications,"
Journal of Alloys and Compounds,688, Part B, 242-251,
2016-12.
(SCI)
22
Yu-Cheng Chang,* Chao-Chun Hsu, Jai-Cing Lin, Shuo-Hsiu Wu,
"Template-free, surfactantless route to synthesize cadmium hydroxide nanodisks and nanowires,"
Materials Research Bulletin,83, 207-210,
2016-11.
(SCI)
23
Fu-Hsiang Ko, Wei-Ju Lo, Yu-Cheng Chang,* Jin-You Guo, Chien-Ming Chen,
"ZnO nanowires coated stainless steel meshes as hierarchical photocatalysts for catalytic photodegradation of four kinds of organic pollutants,"
Journal of Alloys and Compounds,678, 137–146,
2016-09.
(SCI)
24
Yu-Cheng Chang,* Jin-You Guo,
"ZnO/Pt core-shell nanorods on the cotton threads with high enhanced photocatalytic properties,"
Materials Chemistry and Physics,180, 9-13,
2016-09.
(SCI)
25
Yu-Cheng Chang*,
"Complex ZnO/ZnS nanocable and nanotube arrays with high performance photocatalytic activity,"
Journal of Alloys and Compounds,664, 538-546,
2016-04.
(SCI)
26
Yu-Cheng Chang*,
"Low temperature and large-scale growth of ZnO nanoneedle arrays with enhanced optical and surface-enhanced Raman scattering properties,"
Sensors and Actuators B: Chemical,225, 498-503,
2016-03.
(SCI)
27
Yu-Cheng Chang*,
"Cadmium hydroxide and oxide nanoporous walls with high performance photocatalytic properties,"
Journal of Alloys and Compounds,637, 112-118,
2015-07.
(SCI)
28
Fu-Hsiang Ko, Ming–Rou Tai, Fu-Ken Liu, Yu-Cheng Chang*,
"Au-Ag core-shell nanoparticles with controllable shell thicknesses for the detection of adenosine by surface enhanced Raman scattering,"
Sensors and Actuators B: Chemical,211, 283-289,
2015-05.
(SCI)
29
Yu-Cheng Chang*,
"Ni-doped ZnO nanotower arrays with enhanced optical and field emission properties,"
RSC Advances,4, 56241-56247,
2014-10.
(SCI)
30
Yu-Cheng Chang*,
"Temperature-dependence cathodoluminescence of ultra-sharp ZnO nanopagoda arrays,"
Journal of Alloys and Compounds,617, 16-20,
2014-08.
(SCI)
31
Yu-Cheng Chang*,
"Low temperature growth of ZnO nanowire arrays with enhanced high performance photocatalytic activity and reusability,"
Catalysis Communications,56, 45-49,
2014-07.
(SCI)
32
Yu-Cheng Chang*,
"Controlling growth of single-crystalline indium hydroxide nanocuboids with enhanced sharp cathodoluminescence peak,"
Journal of Alloys and Compounds,615, 538-541,
2014-07.
(SCI)
33
Fu-Hsiang Ko and Yu-Cheng Chang*,
"Aptamer based surface enhanced Raman scattering detection of adenosine using various core sizes of Au–Ag core–shell nanoparticles,"
RSC Advances,4, 26251-26257,
2014-06.
(SCI)
34
Ranjodh Singh, Jagan Singh Meena, Yu-Cheng Chang, Chung-Shu Wu and Fu-Hsiang Ko*,
"Control of active semiconducting layer packing in organic thin film transistors through synthetic tailoring of dielectric materials,"
RSC Advances,4, 29383-29392,
2014-06.
(SCI)
35
Yu-Cheng Chang*,
"ZnO nanopinecone arrays with enhanced photocatalytic performance in sunlight,"
RSC Advances,4, 20273–20280,
2014-04.
(SCI)
36
Jagan Singh Meena, Min-Ching Chu, Yu-Cheng Chang, Hsin-Chiang You, Ranjodh Singh, Po-Tsun Liu, Han-Ping D. Shieh, Feng-Chih Chang and Fu-Hsiang Ko*,
"Effect of oxygen plasma on the surface states of ZnO films used to produce thin-film transistors on soft plastic sheets,"
Journal of Materials Chemistry C,1, 6613-6622,
2013-10.
(SCI)
37
T. H. Chang, Y. C. Chang,* F. H. Ko, F. K. Liu,*,
"Electroless Plating Growth Au-Ag Core-Shell Nanoparticles for Surface Enhanced Raman Scattering,"
Int. J. Electrochem. Sci.,8, 6889-6899,
2013-05.
(SCI)
38
Y. H. Chen, W. S. Li, C. Y. Liu, C. Y. Wang, Y. C. Chang, L. J. Chen,*,
"Three-Dimensional Heterostructured ZnSe Nanoparticles/Si Wire Arrays with Enhanced Photodetection and Photocatalytic Performances,"
J. Mater. Chem. C,1, 1345-1351,
2013-02.
(SCI)
39
T. H. Chang, Y. C. Lai, Y. C. Chang,*, Fu-Hsiang Ko, Fu-Ken Liu,*,
"Controlled Growth Density and Patterning of Silica Nanorings and Nanowires with Enhanced Ultraviolet Cathodoluminescence Peak,"
Int. J. Electrochem. Sci.,7, 8140?8150,
2012-09.
(SCI)
40
J. S. Meena, M. C. Chu, Y. C. Chang, C. S. Wu, C. C. Cheng, F. C. Chang, and F. H. Ko*,
"Novel Chemical Route to Prepare a New Polymer Blend Gate Dielectric for Flexible Low-Voltage Organic Thin-Film Transistor,"
ACS Appl. Mater. Interfaces,4, 3261?3269,
2012-06.
(SCI)
41
J. S. Meena, M. C. Chu, C. S. Wu, J. C. Liang, Y. C. Chang, S. Ravipati, F. C. Chang, F. H. Ko*,
"Facile Synthetic Route to Implement a Fully Bendable Oragnic Metal-Insulator-Semiconductor Device on Polyimide Sheet,"
Org. Electron.,13, 721-732,
2012-05.
(SCI)
42
F. K. Liu*, Y. C. Chang,
"Using Size-Exclusion Chromatography to Evaluate Changes in the Sizes of Au and Au/Pd Core/Shell Nanoparticles Under Thermal Treatment,"
Chromatographia,74, 767-775,
2011-12.
(SCI)
43
F. K. Liu*, Y. C. Chang,
"Using Thiol-Capped Au Nanoparticles in the Background Solution of Micellar Electrokinetic Chromatography to Concentrate and Separate Neutral Steroids,"
Chromatographia,72, 1129-1135,
2010-12.
(SCI)
44
M. T. Chen, M. P. Lu, Y. J. Wu, J. Song, C. Y. Lee, M. Y. Lu, Y. C. Chang, L. J. Chou, Z. L. Wang, L. J. Chen*,
"Near UV LEDs Made with in Situ Doped p-n Homojunction ZnO Nanowire Arrays,"
Nano Lett.,10, 4387-4393,
2010-10.
(SCI)
45
T. H. Chang, Y. C. Chang*, F. K. Liu, T. C. Chu,
"Controlling Growth Density and Patterning of Single Crystalline Silicon Nanowires,"
Appl. Surf. Sci.,256, 7339-7343,
2010-09.
(SCI)
46
F. K. Liu*, Y. C. Chang,
"Using Reversed Phase Liquid Chromatography to Monitor the Sizes of Au/Pt Core/Shell Nanoparticles,"
J. Chromatogr. A,1217, 1647–1653,
2010-03.
(SCI)
47
C. M. Chang, Y. C. Chang, Y. A. Chung, C. Y. Lee, L. J. Chen*,
"Synthesis and Properties of the Low Resistivity TiSi2 Nanowires Grown with TiF4 Precursor,"
J. Phys. Chem. C,113, 17720–17723,
2009-09.
(SCI)
48
Y. C. Chang, H. W. Wu, H. L. Chen, W. Y. Wang and L. J. Chen*,
"Two-Dimensional Inverse Opal ZnO Nanorod Networks with Photonic Band Gap,"
J. Phys. Chem. C,113, 14778-14782,
2009-07.
(SCI)
49
Y. C. Chang, W. C. Yang, C. M. Chang, P. C. Hsu and L. J. Chen*,
"Controlled Growth of ZnO Nanopagoda Arrays with Varied Lamination and Apex,"
Crystal Growth & Design,9, 3161–3167,
2009-06.
(SCI)
50
C. M. Chang, Y. C. Chang, C. Y. Lee, P. H. Yeh, W. F. Lee, L. J. Chen*,
"Ti5Si4 Nanobats with Excellent Field Emission Properties,"
J. Phys. Chem. C,113, 9153–9156,
2009-05.
(SCI)
51
Y. A. Chung, Y. C. Chang, M. Y. Lu, C. Y. Wang and L. J. Chen*,
"Synthesis and Photocatalytic Activity of Small Diameter ZnO Nanorods,"
J. Electrochem. Soc.,156(5), F75-F79,
2009-02.
(SCI)
52
W. C. Yang, C. W. Wang, J. C. Wang, Y. C. Chang, H. C. Hsu, J. H. He, L. J. Chen*, T. E. Nee,
"Aligned Er-Doped ZnO Nanorod Arrays with Enhanced 1.54 μm Infrared Emission,"
J. Nanosci. Nanotechnol.,8, 3363-3368,
2008-07.
(SCI)
53
T. H. Chang, F. K. Liu*, Y. C. Chang and T. C. Chu,
"Rapidly Characterizing the Growth of Au Nanoparticles by CE,"
Chromatographia,67, 723-730,
2008-05.
(SCI)
54
W. C. Yang, C. W. Wang, J. H. He, Y. C. Chang, J. C. Wang, L. J. Chen*, H. Y. Chen and S. Gwo,
"Facile Synthesis of Large Scale Er-doped ZnO Flower-like Structures with Enhanced 1.54 μm Infrared Emission,"
Phys. Stat. Sol. (a),1–6,
2008-01.
(SCI)
55
K. W. Huang, J. H. Wang, H. C. Chen, H. C. Hsu, Y. C. Chang, M. Y. Lu, C. Y. Lee and L. J. Chen*,
"Supramolecular Nanotubes with High Thermal Stability: a Rigidity Enhanced Structure Ttransformation Induced by Electron-beam Irradiation and Heat,"
J. Mater. Chem.,17, 2307-2312,
2007-03.
(SCI)
56
Y. C. Chang and L. J. Chen*,
"ZnO Nanoneedles with Enhanced and Sharp Ultraviolet Cathodoluminescence Peak,"
J. Phys. Chem. C,111, 1268-1272,
2007-01.
(SCI)
57
L. J. Chen*, Y. C. Chang, J. H. He,
"ZnO Nanostructures and Device Applications,"
ECS transactions,6, 103,
2007-01.
(EI)
58
M. Y. Lu, Y. C. Chang and L. J. Chen*,
"Synthesis of Au Nanotubes with SiOx Nanowires as Sacrificial Templates,"
J. Vac. Sci. Technol. A,24, 1226-1339,
2006-07.
(SCI)
59
F. K. Liu*, P. W. Huang, Y. C. Chang, F. H. Ko, T. C. Chu,
"Combining Optical Lithography with Rapid Microwave Heating for the Selective Growth of Au/Ag Bimetallic Core/Shell Structures on Patterned Silicon Wafers,"
Langmuir,21, 2519-2525,
2006-02.
(SCI)
60
F. K. Liu,* P. W. Huang, Y. C. Chang, C. J. Ko, F. H. Ko, T. C. Chu,
"Formation of Silver Nanorods by Microwave Heating in the Presence of Gold Seeds,"
J. Cryst. Growth,273, 439-445,
2005-01.
(SCI)
61
Y. C. Chang, C. J. Ko, F. H. Ko,* T. C. Chu,
"Probing the Microwave Degradation Mechanism of Phenol-containing Polymeric Compounds by Sample Pretreatment and GC–MS Analysis,"
Anal. Chim. Acta,526, 121-129,
2004-09.
(SCI)
62
F. K. Liu,* Y. C. Chang, P. W. Huang, F. H. Ko, T. C. Chu,
"Preparation of Silver Nanorods by Rapid Microwave Heating,"
Chem. Lett.,33, 1050-1051,
2004-05.
(SCI)
63
F. K. Liu,* P. W. Huang, Y. C. Chang, F. H. Ko, T. C. Chu,
"Microwave-assisted Synthesis of Silver Nanorods,"
J. Mater. Res.,19, 469-473,
2004-02.
(SCI)
64
F. K. Liu,* Y. C. Chang, F. H. Ko, T. C. Chu,
"Microwave Rapid Heating for the Synthesis of Gold Nanorods,"
Mater. Lett.,58, 373-377,
2004-01.
(SCI)
65
F. K. Liu,* C. J. Ker, Y. C. Chang, F. H. Ko, T. C. Chu, B. T. Dai,
"Microwave Heating for the Preparation of Nanometer Gold Particles,"
Jpn. J. Appl. Phys,42, 4152-4158,
2003-06.
(SCI)
66
F. K. Liu,* Y. C. Chang, F. H. Ko, T. C. Chu, B. T. Dai,
"Rapid Fabrication of High Quality Self-assembled Nanometer Gold Particles by Spin Coating Method,"
Microelectronic Engineering,67, 702-709,
2003-06.
(SCI)
Shih-Yue Syu *, Yu-Cheng Chang,
"Fabrication of Cu-doped ZnO nanoneedles on different substrate via wet chemical approach: Structural characterization and photocatalytic
performance,"
2019第三屆台灣碳材料學術研討會
, C-Y-08
, 2019-08.
逢甲大學-第九國際會議廳.
11
Yu-Cheng Chang*, Kai-Wei Chuang,
"Ag⁄Ga-Doped ZnO⁄Pyramidal Silicon as A Multifunctional Surface-Enhanced Raman Scattering Substrate,"
10 th International Conference on Materials for Advanced Technologies
, Sym Z-05
, 2019-06.
Marina Bay Sands.
12
C.-Y. Chen*, Y.-S. Li, G.-J. Lee, J. J. Wu, Y.-C. Chang, C.-Y. Tsay, J.-H. Chen, T.-L. Horng,
"Photocatalytic Properties of Ceria/Polyaniline Heterostructured Powder,"
XVI ECerS Conference
, Proceedings
, 2019-06.
Polytechnic of Turin, Turin, Italy.
13
Shih-Yue Syu*, Yu-Cheng Chang,
"Fabrication of CuO/In2S3/ZnO heterostructure arrays for improving photocatalytic activity,"
2019年功能性材料研討會暨科技部專題研究計畫成果發表會
, PB-04
, 2019-06.
南臺科技大學.
14
Meng-Chien Wu*, Yu-Cheng Chang,
"Fabrication of the Ag nanoparticles on a silicon substrate for sensitive, uniform, reproducible and stable SERS substrate,"
2019年功能性材料研討會暨科技部專題研究計畫成果發表會
, PB-03
, 2019-06.
南臺科技大學.
Kai-Wei Chuang, Yu-Cheng Chang, Shuo-Hsiu Wu, Jai-Cing Lin,
"Al-doped ZnO/SnO2 Heterostructured Arrays with High Performance Photocatalytic and SERS Properties,"
2018 European Materials Research Society-Spring Meeting
, P VI. 5
, 2018-06.
斯特拉斯堡會議中心.
27
Yin-Cheng Wu*, Yu-Cheng Chang,
"Fabrication of novel ZnO nanoporous films with enhanced high performance photocatalytic activity and reusability,"
2018年功能性材料研討會暨科技部專題研究計畫成果發表會
, PA-06
, 2018-06.
南臺科技大學.
28
Yu-Fan Chen*, Yu-Cheng Chang, Kai-Wei Chuang,
"A facile fabrication of Cu-doped ZnO nanoneedles on the flexible carbon cloth with highly efficient photocatalytic activity and stability,"
2018年功能性材料研討會暨科技部專題研究計畫成果發表會
, PA-08
, 2018-06.
南臺科技大學.
29
Yu-Ting Tsai*, Yu-Cheng Chang,
"One-step growth of Na2Ti3O7 nanorods on the Ti foil with enhanced visible-light photocatalytic activity,"
2018年功能性材料研討會暨科技部專題研究計畫成果發表會
, PA-07
, 2018-06.
南臺科技大學.
30
Chi-Lu Tasi*, Yu-Cheng Chang,
"Complex SnO2 nanoparticles and nanosheets with high visible-light driven photocatalytic activity,"
2018年功能性材料研討會暨科技部專題研究計畫成果發表會
, PA-09
, 2018-06.
南臺科技大學.
31
Yu-Cheng Chang*, Chao-Chun Hsu, and Yi-Chang Liu,
"Complex ZnO and graphene nanocomposites with high performance photocatalysts under UV and visible light irradiation,"
2018 ISAF-FMA-AMF-AMEC-PFM Joint Conference
, P152
, 2018-05.
International Conference Center Hiroshima.
Yu-Ting Tsai*, Yu-Cheng Chang, Jin-You Guo, Chien-Ming Chen,
"Double-sided plasmonic silver nanoparticles decorated copper oxide/zinc oxide heterostructured nanomace arrays with high enhanced photocatalytic degradation performance,"
2017 IUMRS International Conference in Asia
, 0756
, 2017-11.
台北世貿中心南港展覽館.
35
Kai-Wei Chuang*, Yu-Cheng Chang, Chien-Ming Chen,
"Self-deposition of Ag nanoparticles on the silicon substrates for surface-enhanced Raman scattering,"
2017 IUMRS International Conference in Asia
, 0615
, 2017-11.
台北世貿中心南港展覽館.
Jia-Cing Lin,* Yu-Cheng Chang,
"Fabrication of ZnO nanowires on the stainless steel mesh substrates for high performance photocatalytic applications,"
2017年功能性材料研討會暨科技部專題研究計畫成果發表會
, PA-24
, 2017-06.
南臺科技大學.
41
Chao-Chun Hsu,* Yu-Cheng Chang,
"Fabrication of novel ZnO nanoporous films for enhancing photocatalytic activity,"
2017年功能性材料研討會暨科技部專題研究計畫成果發表會
, PA-25
, 2017-06.
南臺科技大學.
Yu-Cheng Chang,* Pei-Shih Lin, Fu-Ken Liu,
"One-step and single source synthesis of Cu-doped ZnO nanowires on flexible brass foil for high performance photocatalytic applications,"
The 5th Asian Conference on Civil, Material and Environmental Sciences
, ACCMES - 2259
, 2016-07.
Premier Hotel Tsubaki Sapporo.
Chien-Ming Chen, Jin-You Guo, and Yu-Cheng Chang*,
"FABRICATION OF NOVEL ZNO/PT NANOPOROUS FILMS FOR EFFICIENT PHOTOCATALYTIC APPLICATIONS,"
2015 INTERNATIONAL SYMPOSIUM ON NANO SCIENCE AND TECHNOLOGY
, 121
, 2015-10.
南臺科技大學.
52
Jin-You Guo, Chien-Ming Chen, and Yu-Cheng Chang*,
"3D BRANCHED CUO/ZNO NANOWIRES ON THE COPPER MESH SUBSTRATES WITH HIGH ENHANCED PHOTOCATALYTIC DEGRADATION PERFORMANCE,"
2015 INTERNATIONAL SYMPOSIUM ON NANO SCIENCE AND TECHNOLOGY
, 123
, 2015-10.
南臺科技大學.
53
林珮詩,* 劉福鯤, 張育誠,
"Novel One-Step Fabrication of Cu-Doped ZnO Nanowires for Photocatalytic Applications,"
第21屆分析技術交流研討會
, 55
, 2015-05.
嘉義大學.
54
林珮詩,* 劉福鯤, 張育誠,
"Growth of Cu-Doped ZnO Nanowires on Brass Foils for Photocatalytic Applications,"
2014中國化學年會
, SAT-A2-MA-053
, 2014-11.
工業技術研究院.
55
Yu-Cheng Chang*,
"Bio-friendly Synthesis of Complex ZnO Nanostructures,"
Asian Conference on Civil, Material and Environmental Sciences
, 2236-2243
, 2014-07.
Hokkaido, Japan.
56
Y. H. Chen*, C. Y. Liu, C. Y. Wang, Y. C. Chang, L. J. Chen,,
"Photocurrent and Photocatalytic Performances of ZnSe/SiNWs Heterostructure Arrays,"
Materials Research Society (MRS) Fall Meeting & Exhibit
, AA17.46
, 2010-11.
Boston, Massachusetts.
57
Z. C. Lin, C. A. Lin , Y. C. Chao , Y. C. Chang, L. J. Chen, R. J. Chung, J. H. He*,
"Design of Nanostructured ZnO Surface for Antireflection Coatings,"
218th Meeting of the Electrochemical Society
, Abstract #123
, 2010-10.
Las Vegas, USA.
58
Y. C. Chang,* W. C. Yang, C. M. Chang, P. C. Hsu, L. J. Chen,
"Controlled Growth of ZnO Nanopagoda Arrays with Varied Lamination and Apex,"
2009 European Materials Research Society (E-MRS) Spring Meeting
, Program 2009 E 18:00
, 2009-06.
Strasbourg, France.
59
C. M. Chang*, P. H. Yeh, C. Y. Lee, Y. C. Chang, W. F. Lee, L. J. Chen,
"Synthesis and the Properties of the Ti5Si4 Nanobats,"
214th Meeting of The Electrochemical Society (ECS)
, Time Abs# 316
, 2008-10.
Hawaii, USA.
專書及技術報告
專書及技術報告
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1
技術報告
劉福鯤*, 黃珮雯, 張育誠, 吳世全, 柯富祥, 朱鐵吉
結合光學微影與微波快速加熱法製備選區成長金/銀核層奈米材料
奈米通訊
2005-08-01
原著
2
技術報告
張育誠*, 劉福鯤, 范瑞雲, 朱鐵吉
利用旋轉塗怖的方式快速且均勻的製備自組裝金奈米粒子
真空科技
2004-12-01
原著
3
技術報告
劉福鯤*,張育誠
利用旋轉塗怖的方式快速且均勻的製備自組裝金奈米粒子
知識創新
2004-08-01
原著
4
技術報告
張育誠*, 劉福鯤, 黃珮雯, 范瑞雲, 朱鐵吉, 柯富祥
研究微波快速加熱製備金奈米棒
奈米通訊
2004-02-01
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微波輔助合成硫化銦奈米異質結構於光催化產氫之應用(1/3)
2020-08
2021-07
MOST109-2221-E-035-041-MY3
主持人
2
二氧化錳奈米複合結構於超級電容器之應用
2020-07
2021-02
109-2813-C-035-025-E
主持人
3
仿植物表面結構於光能儲存及轉換之應用(2/4)
2019-08
2020-07
MOST108-2218-E-035-005-
共同主持人
4
新穎金屬表面電漿子結合異質接面與半導體奈米結構於表面增強拉曼散射之應用(3/3)
2019-08
2020-07
MOST106-2221-E-035-032-MY3
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5
硫化銦/氧化鋅奈米複合材料於光催化產氫之應用
2019-07
2020-02
108-2813-C-035-023-E
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6
仿植物表面結構於光能儲存及轉換之應用(1/4)
2018-08
2019-07
MOST107-2218-E-035-010-
共同主持人
7
新穎金屬表面電漿子結合異質接面與半導體奈米結構於表面增強拉曼散射之應用(2/3)
2018-08
2019-07
MOST106-2221-E-035-032-MY3
主持人
8
銀與二硫化鉬奈米異質結構於光催化之應用
2018-07
2019-02
107CFD0600027
主持人
9
氧化鋅異質結構陣列於光催化製氫之研究(3/3)
2017-08
2018-07
MOST104-2221-E-035-018-MY3
主持人
10
新穎金屬表面電漿子結合異質接面與半導體奈米結構於表面增強拉曼散射之應用(1/3)
2017-08
2018-07
MOST106-2221-E-035-032-MY3
主持人
11
氧化鋅與石墨烯奈米複合材料於光催化之應用
2017-07
2018-02
106-2813-C-035-015-E
主持人
12
氧化鋅異質結構陣列於光催化製氫之研究(2/3)
2016-08
2017-07
MOST104-2221-E-035-018-MY3
主持人
13
氧化鋅異質結構陣列於光催化製氫之研究(1/3)
2015-08
2016-07
MOST104-2221-E-035-018-MY3
主持人
14
氧化鋅奈米結構的成長機制與其特性之研究
2013-11
2014-07
NSC102-2218-E-035-009
主持人
產學合作計畫
產學合作計畫
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1
材料委託試驗(109/8/1-12/25)
2020-08
2020-12
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2
材料委託試驗(2019/05/04-2020/07/30)
2020-05
2020-07
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3
材料委託試驗(2019/02/20-2020/05/01)
2020-02
2020-05
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4
材料委託試驗(2019/09/27至2020/02/09)
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鋰離子電池負極材料諮詢顧問專案計畫
2019-03
2019-12
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材料委託試驗(2019/01/09至2019/04/19)
2019-01
2019-04
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8
材料委託試驗(107/11/22-108/01/08)
2018-11
2019-01
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9
鋰離子電池負極材料之鍍膜開發
2018-10
2018-12
主持人
10
材料委託試驗(107.5.16-7/31)
2018-08
2018-07
主持人
11
材料委託試驗(107/8/1-107/11/23)
2018-08
2018-11
主持人
12
材料委託試驗(107年3月24日起至107年5月15日)
2018-03
2018-05
主持人
13
材料委託試驗(107/1/1-107/3/31)
2018-01
2018-03
主持人
14
材料委託試驗(106/10/21~106/12/31)
2017-10
2017-12
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15
材料系委託試驗(106/8/8-106/10/20)
2017-08
2017-10
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16
材料委託試驗(106/5/23-7/31)
2017-05
2017-07
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17
材料委託試驗(106.2.23-106.5.22)
2017-02
2017-05
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18
材料委託試驗(105/12/17-106/2/22)
2016-12
2017-02
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19
材料委託試驗(105.11.01-105.12.16)
2016-11
2016-12
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20
材料委託試驗(105.9.7-105/10.31)
2016-09
2016-10
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21
材料委託試驗(105/6/9-105/9/6)
2016-06
2016-09
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22
材料委託試驗(105/5/12-105/6/8)
2016-05
2016-06
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23
材料委託試驗(105.4.1-5.11)
2016-04
2016-05
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24
材料委託試驗(105.1.1-105.3.31)
2016-01
2016-03
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25
材料委託試驗(104.12.22-105.03.31)
2015-12
2016-03
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26
材料委託試驗(104.10.13-104.12.21)
2015-10
2015-12
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27
材料委託試驗(104.07.21-104.10.12)
2015-07
2015-10
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28
材料委託試驗(104.06.9-104.7.20)
2015-06
2015-07
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29
材料委託試驗(104.4.14-104.6.8)
2015-04
2015-06
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30
材料委託試驗(104.1.14-104.4.13)
2015-01
2015-04
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獎勵及指導學生獲獎
獎勵及指導學生獲獎
年度
獲獎名稱
授獎單位
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備註
1
109
逢甲大學論文著作獎勵傑出獎
逢甲大學
2020-11-15
High Response CO Sensor Based on a Polyaniline/SnO2 Nanocomposite
2
109
逢甲大學論文著作獎勵傑出獎
逢甲大學
2020-11-15
Bi-functional Al-doped ZnO@SnO2 heteronanowires as efficient substrates for improving photocatalytic and SERS performance
Optimizing pyramidal silicon substrates through the electroless deposition of Ag nanoparticles for high-performance surface-enhanced Raman scattering
5
109
逢甲大學論文著作獎勵傑出獎
逢甲大學
2020-11-15
A facile method to directly deposit the large-scale Ag nanoparticles on a silicon substrate for sensitive, uniform, reproducible and stable SERS substrate
6
108
逢甲大學論文著作獎勵傑出獎
逢甲大學
2019-11-15
Fabrication of novel ZnO nanoporous films for efficient photocatalytic applications
7
108
逢甲大學論文著作獎勵傑出獎
逢甲大學
2019-11-15
Complex SnO2 nanoparticles and nanosheets with enhanced visible-light photocatalytic activity
8
108
逢甲大學論文著作獎勵傑出獎
逢甲大學
2019-11-15
One-step growth of Na2Ti3O7 nanorods for enhanced photocatalytic activities and recyclability
9
108
逢甲大學論文著作獎勵傑出獎
逢甲大學
2019-11-15
Fabrication of Cu-doped ZnO nanoneedles on different substrate via wet chemical approach: Structural characterization and photocatalytic performance
10
108
台灣真空學會2019年度會員大會暨論文發表會-佳作
台灣真空學會
2019-11-01
11
108
108學年度科技部補助大專校院研究獎勵
逢甲大學
2019-09-01
12
107
2019年功能性材料研討會暨科技部專題研究計畫成果發表會-佳作
南臺科技大學化工與材料系
2019-06-14
13
107
中國材料科學學會107年年會暨50週年慶-海報論文競賽-優等獎
逢甲大學
2018-11-17
14
107
逢甲大學論文著作獎勵傑出獎
逢甲大學
2018-11-15
Construction of CuO/In2S3/ZnO heterostructure arrays for enhanced photocatalytic efficiency
15
107
逢甲大學論文著作獎勵傑出獎
逢甲大學
2018-11-15
Double-sided plasmonic Au nanoparticles on Cu-doped ZnO/ZnO heterostructures with enhanced photocatalytic activity
16
107
逢甲大學論文著作獎勵傑出獎
逢甲大學
2018-11-15
Cu-doped ZnO nanowires as highly efficient continuous-flow photocatalysts for dynamic degradation of organic pollutants
17
107
逢甲大學論文著作獎勵傑出獎
逢甲大學
2018-11-15
Modulating the morphology of ZnO nanotower arrays by replenishing of the reaction precursors and their photodegradation properties
18
107
逢甲大學論文著作獎勵傑出獎
逢甲大學
2018-11-15
Growth of Cu-doped ZnO nanowires or ZnO-CuO nanowires on the same brass foil with high performance photocatalytic activity and stability
19
107
107學年度科技部補助大專校院研究獎勵
逢甲大學
2018-08-01
20
106
2018年功能性材料研討會暨科技部專題研究計畫成果發表會-佳作
南臺科技大學化工與材料系
2018-06-08
21
106
2018年功能性材料研討會暨科技部專題研究計畫成果發表會-佳作
南臺科技大學化工與材料系
2018-06-08
22
106
逢甲大學論文著作獎勵傑出獎
逢甲大學
2017-11-15
Complex ZnO/ZnS nanocable and nanotube arrays with high performance photocatalytic activity
23
106
逢甲大學論文著作獎勵傑出獎
逢甲大學
2017-11-15
Template-free, surfactantless route to synthesize cadmium hydroxide nanodisks and nanowires
24
106
逢甲大學論文著作獎勵傑出獎
逢甲大學
2017-11-15
ZnO/Pt core-shell nanorods on the cotton threads with high enhanced photocatalytic properties
25
106
逢甲大學論文著作獎勵傑出獎
逢甲大學
2017-11-15
Low temperature and large-scale growth of ZnO nanoneedle arrays with enhanced optical and surface-enhanced Raman scattering properties
26
106
逢甲大學論文著作獎勵傑出獎
逢甲大學
2017-11-15
ZnO nanowires coated stainless steel meshes as hierarchical photocatalysts for catalytic photodegradation of four kinds of organic pollutants
27
106
逢甲大學論文著作獎勵傑出獎
逢甲大學
2017-11-15
One-step and single source synthesis of Cu-doped ZnO nanowires on flexible brass foil for highly efficient field emission and photocatalytic applications
28
105
第三十七屆台灣顯微鏡學會學術研討會顯微攝影比賽-優選1
台灣顯微鏡學會
2017-06-24
29
105
2017年功能性材料研討會暨科技部專題研究計畫成果發表會-佳作
南臺科技大學化工與材料系
2017-06-09
30
105
2017年功能性材料研討會暨科技部專題研究計畫成果發表會-佳作
南臺科技大學化工與材料系
2017-06-09
31
105
2017年功能性材料研討會暨科技部專題研究計畫成果發表會-佳作
南臺科技大學化工與材料系
2017-06-09
32
105
逢甲大學論文著作獎勵傑出獎
逢甲大學
2016-11-15
Cadmium hydroxide and oxide nanoporous walls with high performance photocatalytic properties
33
105
逢甲大學論文著作獎勵傑出獎
逢甲大學
2016-11-15
Au-Ag core-shell nanoparticles with controllable shell thicknesses for the detection of adenosine by surface enhanced Raman scattering
34
104
2016年功能性材料研討會暨科技部專題研究計畫成果發表會-佳作
南臺科技大學化工與材料系
2016-06-03
35
104
2016年功能性材料研討會暨科技部專題研究計畫成果發表會-佳作
南臺科技大學化工與材料系
2016-06-03
36
104
逢甲大學論文著作獎勵傑出獎
逢甲大學
2015-11-15
ZnO nanopinecone arrays with enhanced photocatalytic performance in sunlight
37
104
逢甲大學論文著作獎勵傑出獎
逢甲大學
2015-11-15
Temperature-dependence cathodoluminescence of ultra-sharp ZnO nanopagoda arrays
38
104
逢甲大學論文著作獎勵傑出獎
逢甲大學
2015-11-15
Ni-doped ZnO nanotower arrays with enhanced optical and field emission properties
39
104
逢甲大學論文著作獎勵傑出獎
逢甲大學
2015-11-15
Controlling growth of single-crystalline indium hydroxide nanocuboids with enhanced sharp cathodoluminescence peak
40
104
逢甲大學論文著作獎勵傑出獎
逢甲大學
2015-11-15
Low temperature growth of ZnO nanowire arrays with enhanced high performance photocatalytic activity and reusability
41
104
逢甲大學論文著作獎勵傑出獎
逢甲大學
2015-11-15
Aptamer based surface enhanced Raman scattering detection of adenosine using various core sizes of Au–Ag core–shell nanoparticles
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