Journal papers (2007~Present)
Total: 43
Citations No.: 1453 (h-index: 20; i10-index: 26)
Google Scholar citation: https://scholar.google.com/citations?user=dCpvAo0AAAAJ&hl=zh-TW
2019
[43] Kathleen Joyce D Carillo, Danni Wu, Su-Ching Lin, Shen-Long Tsai, Jiun-Jie Shie, Der-Lii M Tzou, 1H/13C chemical shifts and cation
binding dataset of the corticosteroid Prednisolone titrated with metal cations, Data in Brief, 2019, 104620.
[42] Chi-Wen Lin, Shen-Long Tsai, Chi-Yung Lai, Shu-Hui Liu, Chih-Hung Wu, Biodegradation kinetics and microbial dynamics of toluene
removal in a two-stage cell-biochar-filled biotrickling filter, Journal of Cleaner Production, 2019, 238, 117940.
[41] Wei-Chuan Chen, Yin-Chen Lin, I-Ming Chu, Li-Fen Wang, Shen-Long Tsai, Yu-Hong Wei, Feasibility of enhancing production of 5-
hydroxymethylfurfural using deep eutectic solvents as reaction media in a high-pressure reactor, Biochemical Engineering
Journal, 2019, 154, 107440.
[40] Cai-En Yang, Chih-Yun Wu, Yu-Cheng Liu, Ethan I Lan, Shen-Long Tsai, Cometabolic degradation of toluene and TCE contaminated wastewater in a bench-scale sequencing batch reactor inoculated with immobilized Pseudomonas putida F1, Journal of the
Taiwan Institute of Chemical Engineers, 2019, 104, 168-176.
[39] Kathleen D Carillo, Danny Wu, Su-Ching Lin, Shen-Long Tsai, Jiun-Jie Shie, Der-Lii M Tzou, Magnesium and Calcium Reveal
Different Chelating Effects in a Steroid Compound: A Model Study of Prednisolone Using NMR Spectroscopy, Steroids, 2019, 150,
180429.
[38] Danny Wu, Kathleen Joyce D Carillo, Shen‐Long Tsai, Jiun‐Jie Shie, Der‐Lii M Tzou, Solid‐state nuclear magnetic resonance
investigation of neurosteroid compounds and magnesium interactions, Journal of the Chinese Chemical Society, 2019, 66, 1318-
1326.
[37] Si-Han Chen, Wan-Wen Huang, Khalilalrahman Dehvari, Yong-Chien Ling, Anil V. Ghule, Shen-Long Tsai, Jia-Yaw Chang,
Photosensitizer-conjugated Cu-In-S heterostructured nanorods for cancer targeted photothermal/photodynamic synergistic
therapy, Materials Science and Engineering: C, 2019, 97, 793-802.
[36] Qing Sun, Shen-Long Tsai, Wilfred Chen*, Artificial scaffolds for enhanced biocatalysis, Methods in enzymology, 2019, 617,
363-383.
2018
[35] Ning-Hui Lu, Su-Chun How, Chien-Yu Lin, Shen-Long Tsai, Zuzana Bednarikova, Diana Fedunová, Zuzana Gazova, Josephine W.
Wu, Steven S. S. Wang, Examining the effects of dextran-based polymer-coated manoparticles on amyloid fibrillogenesis of
human insulin, Colloids and Surfaces B: Biointerfaces, 2018, 172, 674-683.
[34] Wei-Chuan Chen, Min-Jun Tsai, Po-Chi Soo, Li-Fen Wang, Shen-Long Tsai, Yu-Kaung Chang, Yu-Hong Wei, Construction and co-
cultivation of two mutant strains harboring key precursor genes to produce prodigiosin, Journal of bioscience and
bioengineering, 2018, 126 (6), 783-789.
[33] Ian Dominic F Tabañag, I-Ming Chu, Yu-Hong Wei, Shen-Long Tsai*, Ethanol production from hemicellulose by a consortium of
different genetically-modified sacharomyces cerevisiae, Journal of the Taiwan Institute of Chemical Engineers, 2018, 89, 15-25.
[32] Wei-Chuan Chen, Shan-Ming Chang, Jo-Shu Chang, Wen-Ming Chen, I-Ming Chu, Shen-Long Tsai, Li-Fen Wang, Yu-Kaung Chang,
Yu-Hong Wei, A process for simultaneously achieving phenol biodegradation and polyhydroxybutyrate accumulation using
Cupriavidus taiwanesis 187, Journal of Polymer Research, 2018, 25 (6), 137.
[31] Ian Dominic Flormata Tabañag, I-Ming Chu, Yu-Hong Wei, Shen-Long Tsai*, The role of yeast-surface-display techniques in
creating biocatalysts for consolidated bioprocessing, Catalysts, 2018, 8 (3), 94.
2017
[30] Cai-En Yang, I-Ming Chu, Yu-Hong Wei, Shen-Long Tsai*, Surface display of synthetic phytochelatins on Saccharomyces cerevisiae
for enhanced ethanol production in heavy metal- contaminated substrates, Bioresource Technology, 2017, 245(B),1455-1460.
[29] Wei-Chuan Chen, Yin-Chen Lin, Ya-Lian Ciou, I-Ming Chu, Shen-Long Tsai, John Chi-Wei Lan, Yu-Kaung Chang, Yu-Hong Wei*,
Producing bioethanol from pretreated-wood dust by simultaneous saccharification and co-fermentation process, Journal of the
Taiwan Institute of Chemical Engineers, 2017, 79,43-48.
[28] Yu-Kuo Liu , Wei-Chuan Chen, Yu-Ching Huang, Yu-Kaung Chang, I-Ming Chu, Shen-Long Tsai, Yu-Hong Wei*, Production of
bioethanol from Napier grass via simultaneous saccharification and co-fermentation in a modified bioreactor, Journal of
Bioscience and Bioengineering, 2017, 124, 184-188.
[27] Fu-Hsiang Su, Ian Dominic Flormata Tabañag, Chih-Yun Wu, Shen-Long Tsai*, Decorating outer membrane vesicles with
organophosphorus hydrolase and cellulose binding domain for organophosphate pesticide degradation, Chemical Engineering
Journal, 2017,308, 1-7.
2016
[26] Sheng-Hsiang Leng, Cai-En Yang, Shen-Long Tsai*, Designer oleosomes as efficient biocatalysts for enhanced degradation of
organophosphate nerve agents, Chemical Engineering Journal, 2016, 287, 568-574.
2015
[25] Ka-Hei Siu, Rebecca Chen, Qing Sun, Long Chen, Shen-Long Tsai, and Wilfred Chen, Synthetic Scaffolds for Pathway Enhancement,
Current Opinion in Biotechnology, 2015, 36, 98-106.
[24] Yuana Elly Agustin, Shen-Long Tsai*, A high-throughput and selective method for the measurement of surface areas of silver
nanoparticles. Analyst, 2015, 140, 2618-2622.
[23] Ian Sofian Yunus, Shen-Long Tsai*, Designed biomolecule–cellulose complexes for palladium recovery and detoxification. RSC
Advances, 2015, 5, 20276-20282.
[22] Chi-Wen Lin, Chih-Hung Wu, Wan-Ting Huang, Shen-Long Tsai*, Evaluation of different cell-immobilization strategies for
simultaneous distillery wastewater treatment and electricity generation in microbial fuel cells. Fuel, 2015, 144, 1-8.
2014
[21] Teng-Yao Shih, Shen-Long Tsai*, Simultaneous silver recovery and bactericidal bionanocomposite formation via engineered
biomolecules. RSC Advances, 2014, 4, 40994-40998.
[20] Chi-Wen Lin, Chih-Hung Wu, Yu-Hsuan Chiu, Shen-Long Tsai*, Effects of different mediators on electricity generation and
microbial structure of a toluene powered microbial fuel cell. Fuel, 2014, 125, 30-35.
[19] Rebecca Chen, Qi Chen, Heejae Kim, Ka-Hei Siu, Qing Sun, Shen-Long Tsai and Wilfred Chen*, Biomolecular Scaffolds for
Enhanced Signaling and Catalytic Efficiency. Current Opinion in Biotechnology, 2014. 28, 59-68. (Equal contribution).
[18] Qing Sun, Bhawna Madan, Shen-Long Tsai, Matthew P. DeLisa, Wilfred Chen*. Creation of artificial cellulosomes on DNA scaffolds
by zinc finger protein-guided assembly for efficient cellulose hydrolysis. Chemical Communications, 2014. 50, 1423-1425.
2013
[17] Daniel Blackstock, Miso Park, Qing Sun, Shen-Long Tsai, and Wilfred Chen*, Engineering protein modules for diagnostic
applications. Current Opinion in Chemical Engineering, 2013. 2, 416-424. (Equal contribution).
[16] Miso Park, Shen-Long Tsai, Wilfred Chen*, Microbial biosensors: Engineered microorganisms as the sensing machinery. Sensors,
2013. 13, 5777- 5795.
[15] Shen-Long Tsai, Chi-Wen Lin*, Chih-Hung Wu, and Chih-Min Shen, Kinetics of xenobiotic biodegradation for Pseudomonas sp.
YATO411 strain in suspension and cell-immobilized beads, Journal of the Taiwan Institute of Chemical Engineers, 2013. 44, 303-
309.
[14] Shen-Long Tsai, Nancy A DaSilva and Wilfred Chen*, Functional display of complex cellulosomes on the yeast surface via adaptive
assembly, ACS Synthetic Biology, 2013. 2, 14-21.
[13] Shen-Long Tsai, Miso Park and Wilfred Chen*, Size-modulated synergy of cellulase clustering for enhanced cellulose hydrolysis,
Biotechnology Journal, 2013. 8, 257-261.
[12] Shen-Long Tsai, Chi-Wen Lin*, and Chih-Hung Wu, Cell immobilization technique for biotrickle filtering of isopropyl alcohol waste
vapor generated by high-technology industries, Journal of Chemical Technology and Biotechnology, 2013. 88, 364-371.
2012 and before
[11] Shen-Long Tsai, Fang Liu, Qing Sun, Heejea Kim, and Wilfred Chen*, Biologically assembled nanobiocatalysts, Topics in Catalysis,
2012. 55, 1138-1145. (equal contribution)
[10] Fang Liu, Shen-Long Tsai, Bhawna Madan, and Wilfred Chen*, Engineering a high-affinity scaffold for the non-chromatographic
protein purification via intein-mediated cleavage, Biotechnology and Bioengineering, 2012. 109, 2829-2835.
[9] Shen-Long Tsai, Shailendra Singh, Nancy A DaSilva, and Wilfred Chen*, Co-expression of Arabidopsis thaliana phytochelatin
synthase and Treponema denticola cystalysin leads to enhanced arsenic accumulation, Biotechnology and Bioengineering,
2012. 109, 605-608.
[8] Garima Goyal, Shen-Long Tsai, Nancy A DaSilva, and Wilfred Chen*, Simultaneous cell growth and ethanol production from
cellulose by an engineered yeast consortium displaying a functional mini-cellulosome, Microbial Cell Factories, 10: 89, 2011.
[7] Shen-Long Tsai, Garima Goyal, and Wilfred Chen*, Surface display of a functional mini-cellulosome by intracellular
complementation using a synthetic yeast consortium: Application for cellulose hydrolysis and ethanol production, Applied and
Environmental Microbiology, 76, 7514–7520, 2010.
[6] Shen-Long Tsai, Shailendra Singh, and Wilfred Chen*, Arsenic metabolism by microbes in nature and the impact on arsenic
remediation, Current Opinion in Biotechnology, 20, 659–667, 2009.
[5] Shen-Long Tsai, Jeongseok Oh, Shailendra Singh, Ruizhen Chen, and Wilfred Chen*, Functional assembly of mini-cellulosomes on
the Saccharomyces cerevisiae cell surface for cellulose hydrolysis and ethanol production, Applied and Environmental
Microbiology, 75, 6087-6093, 2009.
[4] Chi-Wen Lin*, Chia-Hsien Yen, and Shen-Long Tsai, Biotreatment of phenol-contaminated wastewater in a spiral packed-bed
bioreactor, Bioprocess and Biosystems Engineering, 32, 575–580, 2009.
[3] Chi-Wen Lin*, Ya-Wen Cheng, Shen-Long Tsai, Influences of metals on kinetics of methyl tert-butyl ether biodegradation by
Ochrobactrum cytisi, Chemosphere, 69, 1485–1491, 2007.
[2] Chi-Wen Lin*, Ya-Wen Cheng, Shen-Long Tsai, Multi-substrate biodegradation kinetics of MTBE and BTEX mixtures by
Pseudomonas aeruginosa, Process Biochemistry, 42, 1211–1217, 2007.
[1] Chi-Wen Lin*, Shen-Long Tsai and Sung-Nan Hou, Effects of environmental settings on MTBE removal for a mixed culture and its
monoculture isolation, Applied Microbiology and Biotechnology, 74, 194–201, 2007.