Cited by CrossRef (23)
- Chien-Chung Chen, Chuan-Chi Lan, Chorng-Liang Pan, Mei-Ying Huang, Chee-Ho Chew, Chin-Chieh Hung, Po-Hsuan Chen, Hong-Ting Victor Lin. Repeated-batch lactic acid fermentation using a novel bacterial immobilization technique based on a microtube array membrane. Process Biochemistry 2019;87:25
- Jieun Kim, InYung Sunwoo, Hyunjin Jo, Yoojin Kim, Sung-Koo Kim, Gwi-Taek Jeong. Enhancement of galactose uptake for bioethanol production from Eucheuma denticulatum hydrolysate using galactose-adapted yeasts. Bioprocess Biosyst Eng 2023;46:839
- Chu-Fang Yang, Ci-Ruei Huang. Isolation of 5-hydroxymethylfurfural biotransforming bacteria to produce 2,5-furan dicarboxylic acid in algal acid hydrolysate. Journal of Bioscience and Bioengineering 2018;125:407
- Kazuki Morimoto, Tai-Ying Chiou, Masaaki Konishi. Torulaspora quercuum shows great potential for bioethanol production from macroalgal hydrolysate. Bioresource Technology Reports 2022;17:100952
- Sampa Maiti, Gorka Gallastegui, Saurabh Jyoti Sarma, Satinder Kaur Brar, Yann Le Bihan, Patrick Drogui, Gerardo Buelna, Mausam Verma. A re-look at the biochemical strategies to enhance butanol production. Biomass and Bioenergy 2016;94:187
- Chanin Khomlaem, Hajer Aloui, Aarti R. Deshmukh, Jin-Ho Yun, Hee-Sik Kim, Suchada Chanprateep Napathorn, Beom Soo Kim. Defatted Chlorella biomass as a renewable carbon source for polyhydroxyalkanoates and carotenoids co-production. Algal Research 2020;51:102068
- Trung Hau Nguyen, In Yung Sunwoo, Gwi-Taek Jeong, Sung-Koo Kim. Detoxification of Hydrolysates of the Red Seaweed Gelidium amansii for Improved Bioethanol Production. Appl Biochem Biotechnol 2019;188:977
- Meiron Zollmann, Arthur Robin, Meghanath Prabhu, Mark Polikovsky, Amichai Gillis, Semion Greiserman, Alexander Golberg. Green technology in green macroalgal biorefineries. Phycologia 2019;58:516
- Chae Hun Ra, Trung Hau Nguyen, Gwi-Taek Jeong, Sung-Koo Kim. Evaluation of hyper thermal acid hydrolysis of Kappaphycus alvarezii for enhanced bioethanol production. Bioresource Technology 2016;209:66
- Caroline Müller, Thamarys Scapini, Alan Rempel, Ederson Rossi Abaide, Aline Frumi Camargo, Mateus Torres Nazari, Viviani Tadioto, Charline Bonatto, Marcus Vinícius Tres, Giovani Leone Zabot, Luciane Maria Colla, Helen Treichel, Sérgio Luiz Alves. Challenges and opportunities for third-generation ethanol production: A critical review. Engineering Microbiology 2023;3:100056
- Sampa Maiti, Gorka Gallastegui, Gayatri Suresh, Satinder Kaur Brar, Yann LeBihan, Patrick Drogui, Gerardo Buelna, Antonio Avalos Ramirez, Mausam Verma, Carlos Ricardo Soccol. Two-phase partitioning detoxification to improve biobutanol production from brewery industry wastes. Chemical Engineering Journal 2017;330:1100
- Thummala Chandrasekhar, Duddela Varaprasad, Poreddy Gnaneswari, Battana Swapna, Khateef Riazunnisa, Vankara Anu Prasanna, Mallikarjuna Korivi, Young-Jung Wee, Veeranjaneya Reddy Lebaka. Algae: The Reservoir of Bioethanol. Fermentation 2023;9:712
- Kazuki Morimoto, Tai-Ying Chiou, Masaaki Konishi. Torulaspora Quercuum Shows Great Potential for Bioethanol Production from Macroalgal Hydrolysate. SSRN Journal 2021
- Swati Dahiya, Raja Chowdhury, Pradeep Kumar, Sanjoy Ghosh, Asha Srinivasan. Recovery of Sugar and Nutrients from Algae and Colocasia esculenta (Taro) Leaves Using Chemical Hydrolysis. Sustainability 2022;14:16383
- Hui Chen, Xinyang Wang, Qiang Wang. Microalgal biofuels in China: The past, progress and prospects. GCB Bioenergy 2020;12:1044
- S. Kavitha, Rashmi Gondi, R. Yukesh Kannah, Gopalakrishnan Kumar, J. Rajesh Banu. A review on current advances in the energy and cost effective pretreatments of algal biomass: Enhancement in liquefaction and biofuel recovery. Bioresource Technology 2023;369:128383
- Hong-Ting Victor Lin, Mei-Ying Huang, Te-Yu Kao, Wen-Jung Lu, Hsuan-Ju Lin, Chorng-Liang Pan. Production of Lactic Acid from Seaweed Hydrolysates via Lactic Acid Bacteria Fermentation. Fermentation 2020;6:37
- M.P. Sudhakar, A. Jegatheesan, C. Poonam, K. Perumal, K. Arunkumar. Biosaccharification and ethanol production from spent seaweed biomass using marine bacteria and yeast. Renewable Energy 2017;105:133
- Chien-Chung Chen, Chien-Hui Wu, Jhih-Jhong Wu, Chien-Chih Chiu, Chien-Hsuan Wong, Min-Lang Tsai, Hong-Ting Victor Lin. Accelerated bioethanol fermentation by using a novel yeast immobilization technique: Microtube array membrane. Process Biochemistry 2015;50:1509
- Mahroo Seyed Jafari Olia, Mehrdad Azin, Nasrin Moazami. Application of a statistical design to evaluate bioethanol production from Chlorella S4 biomass after acid - Thermal pretreatment. Renewable Energy 2022;182:60
- Trung Hau Nguyen, Chae Hun Ra, InYung Sunwoo, Gwi-Taek Jeong, Sung-Koo Kim. Bioethanol production from Gracilaria verrucosa using Saccharomyces cerevisiae adapted to NaCl or galactose. Bioprocess Biosyst Eng 2017;40:529
- Jean-Baptiste Beigbeder, Jean-Michel Lavoie. Effect of photoperiods and CO2 concentrations on the cultivation of carbohydrate-rich P. kessleri microalgae for the sustainable production of bioethanol. Journal of CO2 Utilization 2022;58:101934
- Ming-Ju Wu, Guan-Fu Ye, Ching-Hao Wang, Hong-Ting Victor Lin, Chien-Chung Chen, Cheng-Huang Lin. The Use of a Gas Chromatography/Milli-whistle Technique for the On-line Monitoring of Ethanol Production Using Microtube Array Membrane Immobilized Yeast Cells. ANAL. SCI. 2017;33:625