| 淡江大學 |
2020/05/19 |
Bioprocessing of squid pens waste into chitosanase by Paenibacillus sp. TKU047 and its application in low-molecular weight chitosan oligosaccharides production
|
CT, Doan;Tran TN, Nguyen VB;TD, Tran;AD, Nguyen;SL*, Wang |
| 淡江大學 |
2019 |
Bioprocessing shrimp shells to rat intestinal α- glucosidase inhibitor and its effect on reducing blood glucose in a mouse model
|
VB, Nguyen;TH, Nguyen;AD, Nguyen;Le, T;YH, Kuo;SL, Wang |
| 淡江大學 |
2021-08-11 |
Bioproduction of prodigiosin from fishery processing waste-shrimp head and evaluation of its potential bioactivities
|
VB, Nguyen;SL, Wang;AD, Nguyen;TQ, Phan;Techato, K;Pradit, S |
| 國立臺灣海洋大學 |
2010 |
Bioproperties and Purification of Xylanase from Bacillus sp. YJ6
|
Li-Jung Yin; Hsin-Hung Lin; Yen-I Chiang; Shann-Tzong Jiang |
| 國立臺灣海洋大學 |
2010 |
Bioproperties of Potent Nattokinase from Bacillus subtilis YJ1
|
Li-Jung Yin; Hsin-Hung Lin; Shann-Tzong Jiang |
| 國立成功大學 |
2024-04 |
Bioprospecting photosynthetic microorganisms for the removal of endocrine disruptor compounds
|
Winayu;Rara, Birgitta Narindri;Chu;Feng-Jen;Sutopo;Yudho, Christoper Caesar;Chu;Hsin |
| 國立臺灣海洋大學 |
2018 |
Bioprosthesis of Core-Shell Gold Nanorod-Serum Albumin Nanoimitation: A Half-Native and Half-Artificial Nanohybrid for Cancer Theranostics.
|
Hsien-Ting Chiu;Chung-Hao Chen;Meng-Lin Li;Cheng-Kuan Su;Yuh-Chang Sun;Chi-Shiun Chiang;Yu-Fen Huang |
| 國家衛生研究院 |
2002-01 |
Bioprosthetic heart valve leaflet deformation monitored by double-pulse stereo photogrammetry
|
Gao, BZ; Pandya, S; Arana, C; Hwang, NHC |
| 國立交通大學 |
2015-12-02T02:59:25Z |
Biopsy Diagnosis of Oral Carcinoma by the Combination of Morphological and Spectral Methods Based on Embedded Relay Lens Microscopic Hyperspectral Imaging System
|
Ou-Yang, Mang; Hsieh, Yao-Fang; Lee, Cheng-Chung |
| 中國醫藥大學 |
2006-08 |
Biopsy of renal pelvis during the percutaneous nephrolithotripsy session
|
陳至正(Chi-Cheng Chen); 陳汶吉(Wen-Chi Chen); 張兆祥(Chao-Hsiang Chang); 吳錫金(Hsi-Chin Wu); 葉進仲(Chin-Chung Yen); 鄒頡龍(Chieh-Lung Chou); 謝登富(Deng-Fu Hsieh) |
| 國立成功大學 |
2024-11-12 |
Biopsychosocial Effects of Donor Traits on Heart Transplant Recipients
|
Hou;Chia-Chin;Hu;Yu-Ning;Kuo;Lan-Ping;Chang;Chun-Hao;Tsai;Tzu-Faye;Huang;Yu-Ching;Tsai;Meng-Ta;Hsu;Yu-Yun;Roan;Jun-Neng |
| 國立臺灣大學 |
1991 |
Biopsychosocial Risk Factors of High Blood Pressure Among College Students
|
梁繼權; 李明濱; 陳慶餘; 李明濱; 梁繼權; 李明濱; 陳慶餘; Lee, Ming-Been |
| 臺大學術典藏 |
2018-09-10T06:53:11Z |
Biopsychosocial Risk Factors of High Blood Pressure among College Students
|
Ming-Been Lee; MING-BEEN LEE |
| 國立臺灣科技大學 |
2011 |
Bioreactor and process design for biohydrogen production
|
Show, K.Y.;Lee, D.J.;Chang, J.S. |
| 國立成功大學 |
2011-09 |
Bioreactor and process design for biohydrogen production
|
Show, Kuan-Yeow; Lee, Duu-Jong; Chang, Jo-Shu |
| 元智大學 |
2006-03 |
Bioreactor design for enhanced carrier-assisted surfactin production with Bacillus subtilis
|
魏毓宏; Mao-Song Yeh; Jo-Shu Chang |
| 國立成功大學 |
2006-08 |
Bioreactor design for enhanced carrier-assisted surfactin production with Bacillus subtilis
|
Yeh, Mao-Sung; Wei, Yu-Hong; Chang, Jo-Shu |
| 元智大學 |
2022-01-20 |
Bioreactor design for enhanced hydroxymethylfurfural production with deep eutectic solvents
|
Wei Y.-H.; Wei-Chuan Chen |
| 元智大學 |
2022-01-20 |
Bioreactor design for enhanced hydroxymethylfurfural production with deep eutectic solvents
|
Wei Y.-H.; Wei-Chuan Chen |
| 亞洲大學 |
2016 |
Bioreactors and in situ product recovery techniques for acetone-butanol-ethanol fermentation
|
Li), Si-Yu Li(Si-Yu;Chao)*, 趙雲鵬(Yun-Peng |
| 亞洲大學 |
2016 |
Bioreactors and in situ product recovery techniques for acetone-butanol-ethanol fermentation
|
Li, Si-Yu;Li, Si-Yu;趙雲鵬;Chao, Yun-Peng;* |
| 亞洲大學 |
2016 |
Bioreactors and in situ product recovery techniques for acetone-butanol-ethanol fermentation
|
Chao;*, Si-Yu Li;Si-Yu Li;趙雲鵬;Yun-Peng |
| 國立成功大學 |
2009-10 |
Bioreactors configured with distributors and carriers enhance the performance of continuous dark hydrogen fermentation
|
Lo, Yung-Chung; Lee, Kuo-Shing; Lin, Ping-Jei; Chang, Jo-Shu |
| 元智大學 |
2019-11-08 |
Biorecovery of gold by indigenous dissimilatory metal reducing bacteria Shewanella algae ACH-1
|
Cheng-Hsiu Tsai (蔡承修),; Chien C.-C. |
| 國立成功大學 |
2020-03 |
Biorefineries in circular bioeconomy: A comprehensive review
|
Ubando;Aristotle, T.;Felix;Charles, B.;Chen;Wei-Hsin |
| 國立成功大學 |
2016-09 |
Biorefineries of carbon dioxide: From carbon capture and storage (CCS) to bioenergies production
|
Cheah, Wai Yan;Ling, Tau Chuan;Juan, Joon Ching;Lee, Duu-Jong;Chang, Jo-Shu;Show, Pau Loke |
| 臺大學術典藏 |
2020-01-06T03:05:51Z |
Biorefineries of carbon dioxide: From carbon capture and storage (CCS) to bioenergies production
|
Cheah, W.Y.; Ling, T.C.; Juan, J.C.; Lee, D.-J.; Chang, J.-S.; Show, P.L.; DUU-JONG LEE |
| 大葉大學 |
2017-04-24 |
Biorefinery of Algal Biomass for Bioethanol Production
|
WU, FANG-CHEN;Liao, Yi-Jyun;Wang, Man-Ying;Shih, Ing-Lung |
| 大葉大學 |
2014-06-15 |
Biorefinery of algal biomass for valuable bioproducts
|
WU, FANG-CHEN;Wu, Y. J.;liao, Y. J.;Lee, J. D.;Wang, M. Y.;Shih, I. L. |
| 大葉大學 |
2014-06-15 |
Biorefinery of algal biomass for valuable bioproducts
|
Wu, Fang-Chen;Wu, Jane-Yii;Lee, Jen-Der;Liao, J. Y.;Wang, M. Y.;Shih, Ing-Lung |
| 元智大學 |
2019-07-22 |
Biorefinery of Industrial Wastes for Bio-based Chemicals Production
|
Chi-Wei (John) Lan |
| 元智大學 |
2023/7/11 |
Biorefinery of Poly-3-hydroxybutyrate by Using Pineapple Leaf Extracted Sugar
|
Tzu Yu Chen; Yi-Lee Chen ; Chi-Wei (John) Lan |
| 朝陽科技大學 |
2025-11 |
Biorefinery-based production of marine-derived alkaline protease from Bacillus subtilis: A promising biocatalyst for breast cancer treatment and detergent formulation applications
|
Vasudhevan, Palanisamy; Arul, Dhayalan; Lo, Huang-Mu; Singh, Subhav; Varshney, Deekshant; 羅煌木 |
| 朝陽科技大學 |
2025-11 |
Biorefinery-based production of marine-derived alkaline protease from Bacillus subtilis: A promising biocatalyst for breast cancer treatment and detergent formulation applications
|
Vasudhevan, Palanisamy; Arul, Dhayalan; Lo, Huang-Mu; Singh, Subhav; Varshney, Deekshant; 羅煌木 |
| 元智大學 |
Jan-23 |
Biorefining and biotechnology prospects of low-cost fish feed on Red tilapia production with different feeding regime
|
邱冠雄; Rungkan Klahan; Bundit Yuangsoi; Niwooti Whangchai; Rameshprabu Ramaraj; Yuwalee Unpaprom; Balakrishnan Deepanraj; Tipsukhon Pimpimol |
| 國立成功大學 |
2018 |
Biorefining of protein waste for production of sustainable fuels and chemicals
|
Li, S.-Y.;Ng, I.-S.;Chen, P.T.;Chiang, Chiang C.-J.;Chao, Y.-P. |
| 國立高雄第一科技大學 |
2017.06 |
Bioregeneration of spent mercury bearing sulfur-impregnated activated carbon adsorbent
|
Shen-Yi?Chen;His, Hsing-Cheng;Shih, Min-Yu |
| 國立臺灣海洋大學 |
2019-01 |
Bioremediation capability evaluation of benzene and sulfolane contaminated groundwater: Determination of bioremediation parameters.
|
Yang; Chu-Fang; Shu-Hui Liu; Yu-Min Su; Yu-Rong Chen; Chi-Wen Lin; Keng-Li Lin |
| 大葉大學 |
2006-12 |
Bioremediation Efficiencies and Microbial Community in a Phenol-contaminated Groundwater
|
Chen, Li-Hsuan;Lin, Chi-Wen |
| 義守大學 |
2010-01 |
Bioremediation of endocrine disruptor di-n-butyl phthalate ester by Deinococcus radiodurans and Pseudomonas stutzeri
|
Chien-Sen Liao;Lung-Chieh Chen;Bing-Sheng Chen;Sin-Hsien Lin |
| 國立成功大學 |
2020 |
Bioremediation of heavy metals using microalgae: Recent advances and mechanisms
|
Leong, Y.K.;Chang, J.-S. |
| 國立臺灣大學 |
2009-06 |
Bioremediation of n-alkanes and the formation of biofloccules by Rhodococcus erythropolis NTU-1 under various saline conditions and sea water
|
Liu, CW; Chang, WN; Liu, HS |
| 臺大學術典藏 |
2018-09-10T07:31:51Z |
Bioremediation of n-alkanes and the formation of biofloccules by Rhodococcus erythropolis NTU-1 under various saline conditions and sea water
|
Liu, C.W.;Chang, W.N.;Liu, H.S.Liu, CW;Chang, WN;Liu, HS; Liu, C.W.; Chang, W.N.; Liu, H.S.Liu, CW; Chang, WN; Liu, HS; CHIH-WEN LIU |
| 臺大學術典藏 |
2020-01-06T03:08:11Z |
Bioremediation of n-alkanes and the formation of biofloccules by Rhodococcus erythropolis NTU-1 under various saline conditions and sea water
|
Liu, C.W.; Chang, W.N.; Liu, H.S.; HWAI-SHEN LIU |
| 國立成功大學 |
2024 |
Bioremediation of pharmaceuticals and antibiotics emerging contaminants from wastewater
|
Alex;A, M.;Vivekanadam;S;Vijayalakshmi;V;Tharmaraj;T |
| 國立成功大學 |
2016-07-15 |
Bioremediation of polychlorinated-p-dioxins/dibenzofurans contaminated soil using simulated compost-amended landfill reactors under hypoxic conditions
|
Chen, Wei-Yu; Wu, Jer-Horng; Lin, Shih-Chiang; Chang, Juu-En |
| 國立成功大學 |
2022-08 |
Bioremediation of selenium-contaminated soil using earthworm Eisenia Effects of bacteria in feces on the soil microbiome
|
Wang;Yikun;Wang;Zi-Jing;Huang;Jung-Chen;Chachar;Azharuddin;Zhou;Chuanqi;He;Shengbing |
| 國立成功大學 |
2022 |
Bioremediation of selenium-contaminated soil using earthworm Eisenia fetida: Effects of gut bacteria in feces on the soil microbiome
|
Wang, Y.;Wang, Z.-J.;Huang, J.-C.;Chachar, A.;Zhou, C.;He, S. |
| 臺大學術典藏 |
2022-04-21T23:17:21Z |
Bioremediation of sulfonamides by a microalgae-bacteria consortium – Analysis of pollutants removal efficiency, cellular composition, and bacterial community
|
Wang, Yue; Li, Jinghua; Lei, Yao; Li, Xiaoqiang; Nagarajan, Dillirani; DUU-JONG LEE; Chang, Jo Shu |
| 國立成功大學 |
2022 |
Bioremediation of sulfonamides by a microalgae-bacteria consortium – Analysis of pollutants removal efficiency, cellular composition, and bacterial community
|
Wang, Y.;Li, J.;Lei, Y.;Li, X.;Nagarajan, D.;Lee, D.-J.;Chang, J.-S. |