| 元智大學 |
Apr-15 |
Controllable electrical performance of spray-coated semiconducting small molecule/insulating polymer blend thin film for organic field effect transistors application
|
Li-Hui Chou; Wei-Chieh Chang; Guan-Yu He; Yu-Cheng Chiu; Cheng-Liang Liu |
| 臺大學術典藏 |
2020-03-02T07:40:27Z |
Controllable Electrochromic Polyamide Film and Device Produced by Facile Ultrasonic Spray-coating
|
GUEY-SHENG LIOU; Liu, H.-S.; Chang, W.-C.; Chou, C.-Y.; Pan, B.-C.; Chou, Y.-S.; Liou, G.-S.; Liu, C.-L. |
| 國立臺灣科技大學 |
2019 |
Controllable electrodeposition of binary metal films from deep eutectic solvent as an efficient and durable catalyst for the oxygen evolution reaction
|
Vo, T.-G.;Hidalgo, S.D.S.;Chiang, Chiang C.-Y. |
| 國家衛生研究院 |
2010-08-17 |
Controllable electrosprayed nanoparticles for quantitative characterization and exposure protocol
|
Mai, FD;Li, JP;Liu, PC;Li, FY;Ling, YC;Chen, JK;Yang, CS |
| 國立臺灣科技大學 |
2017 |
Controllable embedding of sulfur in high surface area nitrogen doped three dimensional reduced graphene oxide by solution drop impregnation method for high performance lithium-sulfur batteries
|
Zegeye, T.A;Tsai, M.-C;Cheng, J.-H;Lin, M.-H;Chen, H.-M;Rick, J;Su, W.-N;Kuo, C.-F.J;Hwang, B.-J. |
| 國立臺灣大學 |
1998 |
Controllable fabrication of bent near-field optical fiber probes by electric arc heating
|
Lin, H. N.; U. Lewlomphaisarl; Chen, S. H.; L. J. Lee; Tsai, D. P. |
| 國立交通大學 |
2014-12-08T15:12:14Z |
Controllable fabrication of the micropore shape of two-dimensional photonic crystals using holographic lithography
|
Hsieh, Mei-Li; Lan, Yi-Sheng |
| 國立成功大學 |
2020-04-1 |
Controllable forces for reproducible chronic constriction injury mimicking compressive neuropathy in rat sciatic nerve
|
Chen;Szu-Han;Huang;Tzu-Chieh;Wang;Jheng-Yang;Wu;Chia-Ching;Hsueh;Yuan-Yu |
| 國立成功大學 |
2020-04 |
Controllable Forces for Reproducible Chronic Constriction Injury Mimicking Compressive Neuropathy in Rat Sciatic Nerve
|
薛元毓; Hsueh, Yuan-Yu; Chen, Szu-Han;Huang, Tzu-Chieh;Wang, Jheng-Yang;Wu, Chia-Ching |
| 國立交通大學 |
2017-04-21T06:56:41Z |
Controllable Formation of Zinc Oxide Micro- and Nanostructures via DUV Direct Patterning
|
Yeh, Chun-Cheng; Liu, Hung-Chuan; Chuang, Ming-Yen; Denzer, Joseph; Berling, Dominique; Zan, Hsiao-Wen; Soppera, Olivier |
| 臺大學術典藏 |
2020-01-17T07:44:00Z |
Controllable fuel cell humidification by ultrasonic atomization
|
Sung, C.-C.; Bai, C.-Y.; Chen, J.-H.; Chang, S.-J.; CHIA-CHI SUNG |
| 臺大學術典藏 |
2013 |
Controllable fuel cell humidification by ultrasonic atomization
|
Sung, C.-C.; Bai, C.-Y.; Chen, J.-H.; Chang, S.-J.; JAU-HORNG CHEN |
| 國立交通大學 |
2017-04-21T06:48:17Z |
Controllable Ink-Jet Printing Technique on Various Channel Width Designs Toward Zinc Oxide-based Thin Film Transistor
|
Wang, Cheng-Jyun; Ko, Fu-Hsiang; You, Hsin-Chiang; Du, Bo-Wei |
| 臺大學術典藏 |
2022-05-21T23:35:58Z |
Controllable interface engineering of g-C3N4/CuS nanocomposite photocatalysts
|
Zou, Jing; Liao, Guodong; Wang, Haitao; Ding, Yaobin; Wu, Pingxiu; JYH-PING HSU; Jiang, Jizhou |
| 國立交通大學 |
2017-04-21T06:55:30Z |
Controllable lasing performance in solution-processed organic-inorganic hybrid perovskites
|
Kao, Tsung Sheng; Chou, Yu-Hsun; Hong, Kuo-Bin; Huang, Jiong-Fu; Chou, Chun-Hsien; Kuo, Hao-Chung; Chen, Fang-Chung; Lu, Tien-Chang |
| 國立成功大學 |
2021 |
Controllable liquid crystal micro tube laser
|
Lin, J.-D.;Wu, P.-C.;Mo, T.-S.;Huang, B.-Y.;Kuo, C.-T.;Lee, C.-R. |
| 國立臺灣科技大學 |
2016 |
Controllable magnetic brake for wind turbines
|
Chen, L.-R;Lin, Y.-S;Wu, C.-H;Hwang, J.-C;Liu, C.-S. |
| 臺大學術典藏 |
2018-09-10T07:00:14Z |
Controllable motion textures
|
Wang, T.-H.; Hsiao, C.-T.; Chen, B.-Y.; Huang, P.-Z.; BING-YU CHEN |
| 國立交通大學 |
2019-04-03T06:37:13Z |
Controllable NO release from Cu1.6S nanoparticle decomposition of S-nitrosoglutathiones following photothermal disintegration of polymersomes to elicit cerebral vasodilatory activity
|
Kao, Po-Tsung; Lee, I-Ju; Liau, Ian; Yeh, Chen-Sheng |
| 國立成功大學 |
2017-01-1 |
Controllable NO release from Cu1.6S nanoparticle decomposition of S-nitrosoglutathiones following photothermal disintegration of polymersomes to elicit cerebral vasodilatory activity
|
Kao;Po-Tsung;Lee;I-Ju;Liau;Ian;Yeh;Chen-Sheng |
| 國立交通大學 |
2014-12-16T06:13:48Z |
Controllable optical device and the forming method thereof
|
Liu Li-Wei; Chen Chih-Wei; Su Yong-Ren; Huang Yi-Pai |
| 國立交通大學 |
2014-12-16T06:15:00Z |
CONTROLLABLE OPTICAL DEVICE AND THE FORMING METHOD THEREOF
|
LIU Li-Wei; CHEN Chih-Wei; SU Yong-Ren; HUANG Yi-Pai |
| 臺大學術典藏 |
2018-09-10T09:42:54Z |
Controllable orientation of assembled gold nanorods on unstructured substrates
|
YANG-FANG CHEN; CHUNG-YUAN MOU; Chen, Y.-F.; Mou, C.-Y.; Liu, M.-H.; Cheng, C.-C.; Chen, Y.-F.; Mou, C.-Y.; Cheng, C.-C.; Liu, M.-H. |
| 國立交通大學 |
2014-12-08T15:38:18Z |
Controllable oxygen vacancies to enhance resistive switching performance in a ZrO(2)-based RRAM with embedded Mo layer
|
Wang, Sheng-Yu; Lee, Dai-Ying; Huang, Tai-Yuen; Wu, Jia-Woei; Tseng, Tseung-Yuen |
| 國立交通大學 |
2019-04-02T06:00:26Z |
Controllable oxygen vacancies to enhance resistive switching performance in a ZrO2-based RRAM with embedded Mo layer
|
Wang, Sheng-Yu; Lee, Dai-Ying; Huang, Tai-Yuen; Wu, Jia-Woei; Tseng, Tseung-Yuen |
