國立交通大學 |
2014-12-08T15:37:09Z |
Growth of chromium carbide capped-carbon nanotip using bias-assisted microwave plasma chemical vapor deposition
|
Hsu, CH; Shi, SC; Chen, CF |
臺大學術典藏 |
2018-09-10T03:50:49Z |
Growth of Cladding-Mode Resonance in Long Period Fiber Grating Based on Bending a Corrugated Fiber Structure
|
L. Lin; C. Y. Lin; G. W. Chern; L. A. Wang; LON A. WANG |
國立聯合大學 |
2006 |
Growth of CNTs from EAF Dust DirectlyMaterials Transactions
|
Huey-Jiuan Lin |
國立成功大學 |
2008-03-05 |
Growth of CNTs on Fe-Si catalyst prepared on Si and Al coated Si substrates
|
Teng, F. Y.; Ting, Jyh-Ming; Sharma, Sahendra P.; Liao, Kun-Hou |
國立成功大學 |
2007-04 |
Growth of CNTs on hydrogen plasma etched Fe-Si thin films
|
Ting, Jyh-Ming; Hung, Shih-Wei |
國立中山大學 |
2006 |
Growth of Co clusters on thin films Al2O3/NiAl(100)
|
M.F. Luo;C.I. Chiang;H.W. Shiu;S.D. Sartale;T.Y. Wang;P.L. Chen;C.C. Kuo |
臺大學術典藏 |
2018-09-10T06:57:30Z |
Growth of coatings on nanoparticles by photoinduced chemical vapor deposition
|
Zhang, B.; Liao, Y.-C.; Girshick, S.L.; Roberts, J.T.; YING-CHIH LIAO |
元智大學 |
Mar-18 |
Growth of Columnar Co3Pt Strucrure with Ru Buffer Layer at Room Temperature
|
An-Cheng Sun |
大葉大學 |
2011-11-18 |
Growth Of Correlated Thin Films By Off-Axis Cosputtering
|
Sung, Huang-Hue;Zhong, Zhuo-Hua;Fan, Jung-Chuan;Lin, Chun-Rong |
大葉大學 |
2011-11-19 |
Growth of Correlated Thin Films by off-xis Cosputtering
|
Sung, H. H.;Zhong, Zhuo-Hua;Fan, Jung-Chuan;Lin, Chun-Rong |
國立臺灣大學 |
2009 |
Growth of Crossed ZnO Nanorod Networks Induced by Polar Substrate Surface
|
He, J. H.; Ho, C. H.; Wang, C. W.; Ding, Y.; Chen, L. J.; Wang, Zhong L. |
國立交通大學 |
2014-12-08T15:14:03Z |
Growth of Cu nanobelt and Ag belt-like materials by surfactant-assisted galvanic reductions
|
Huang, Ting-Kai; Cheng, Tzu-Hou; Yen, Ming-Yu; Hsiao, Wei-Han; Wang, Lung-Shen; Chen, Fu-Rong; Kai, Ji-Jung; Lee, Chi-Young; Chiu, Hsin-Tien |
元智大學 |
2012-06 |
Growth of Cu2ZnSnSe4 thin films by selenization of magnetron sputtered precursors for solar cells
|
Shou-Yi Kuo; lui-Fu Yang; Fang-I Lai; Chun-lung Lin |
元智大學 |
2012-06 |
Growth of Cu2ZnSnSe4 thin films by selenization of magnetron sputtered precursors for solar cells
|
Shou-Yi Kuo; lui-Fu Yang; Fang-I Lai; Chun-lung Lin |
元智大學 |
2012-06-03 |
Growth of Cu2ZnSnSe4 Thin Films by Selenization of Magnetron Sputtered Precursors for Solar Cells
|
Shou-Yi Kuo; Jui-Fu Yang; Fang-I Lai; Chun-Jung Lin |
元智大學 |
2016-12-03 |
Growth of Cu2ZnSnSe4 Thin Films on Transparent Conducting Glass Substrates by Thermal Evaporation Method
|
Shau-Chiuan Chen; Jui-Fu Yang; Fang-I Lai (author); Shou-Yi Kuo |
國立交通大學 |
2017-04-21T06:49:18Z |
Growth of Cu6Sn5 and Cu3Sn Intermetallic compounds on (111)-, (100)-, and randomly-oriented copper films.
|
Li, Yu-Jin; Chen, Chih |
臺大學術典藏 |
2019-11-27T02:02:39Z |
Growth of CuAl intermetallic compounds in Cu and Cu(Pd) wire bonding
|
C. ROBERT KAO;Kao C.R.;Lai Y.S.;Appelt B.K.;Wang Y.W.;Lu Y.H.; Lu Y.H.; Wang Y.W.; Appelt B.K.; Lai Y.S.; Kao C.R.; C. ROBERT KAO |
國立東華大學 |
2004 |
Growth of cubic boron nitride films on Diamond Buffer Layers Via MPCVD
|
Wong,M.S.; Yang,T.S.; Lai,J.Y. |
國立交通大學 |
2014-12-08T15:20:46Z |
Growth of CuInSe(2) and In(2)Se(3)/CuInSe(2) Nano-Heterostructures through Solid State Reactions
|
Hsin, Cheng-Lun; Lee, Wei-Fan; Huang, Chi-Te; Huang, Chun-Wei; Wu, Wen-Wei; Chen, Lih-Juann |
國立交通大學 |
2019-04-02T05:59:07Z |
Growth of CuInSe2 and In2Se3/CuInSe2 Nano-Heterostructures through Solid State Reactions
|
Hsin, Cheng-Lun; Lee, Wei-Fan; Huang, Chi-Te; Huang, Chun-Wei; Wu, Wen-Wei; Chen, Lih-Juann |
國立成功大學 |
2017 |
Growth of CuInSe2 nanowire arrays by pulse electrodeposition with an electrolyte at varying temperatures
|
Cheng, Y.-S.;Dai, W.-R.;Houng, M.-P. |
國立成功大學 |
2013-10 |
Growth of CuO Nanowires by Thermal Oxidation on Glass Substrate With Graphene as the Electrode
|
Hsueh, Han-Ting; Cheng, Tsung-Chieh; Wu, Chung-Lin; Wu, Chen-Wei |
國立成功大學 |
2013-05 |
Growth of CuPd nanoalloys encapsulated in carbon-shell
|
Kang, H. Y.; Wang, H. P. |
國立臺灣科技大學 |
2020 |
Growth of dense, hard yet low-stress Ti0.40Al0.27W0.33N nanocomposite films with rotating substrate and no external substrate heating
|
Wu, Z.;Tengstrand, O.;Bakhit, Bakhit B.;Lu, J.;Greene, J.E.;Hultman, L.;Petrov, I.;Greczynski, Greczynski G. |