公開日期 | 標題 | 作者 | 來源出版物 | scopus | WOS | 全文 |
2008 | Dark fermentation of xylose and glucose mix using isolated Thermoanaerobacterium ihermosaccharolyticum W16 | Ren N.; Cao G.; Wang A.; Lee D.-J. ; Guo W.; Zhu Y. | International Journal of Hydrogen Energy | 192 | 163 | |
2008 | Dark fermentation of xylose and glucose mix using isolated Thermoanaerobacterium thermosaccharolyticum W16 | Ren, Nanqi; Cao, Guangli; Wang, Aijie; Lee, Duu-Jong ; Guo, Wanqian; Zhu, Yuhong | International Journal of Hydrogen Energy | | | |
2011 | Dark fermentation on biohydrogen production: Pure culture | Lee D.-J. ; Show K.-Y.; Su A. | Bioresource Technology | 184 | 154 | |
2020 | Dark fermentation production of volatile fatty acids from glucose with biochar amended biological consortium | Lu, J.-H.; Chen, C.; Huang, C.; Zhuang, H.; Leu, S.-Y.; Lee, D.-J.; DUU-JONG LEE | Bioresource Technology | 45 | 35 | |
2020 | Dark fermentative hydrogen production using macroalgae (Ulva sp.) as the renewable feedstock | Margareta, W.; Nagarajan, D.; Chang, J.-S.; Lee, D.-J.; DUU-JONG LEE | Applied Energy | 34 | 26 | |
2011 | Degradation and characteristic changes of organic matter in sewage sludge using microbial fuel cell with ultrasound pretreatment | Jiang J.; Zhao Q.; Wei L.; Wang K.; Lee D.-J. | Bioresource Technology | 74 | 62 | |
2011 | Degradation of cresols by phenol-acclimated aerobic granules | Lee, D.-J.; Ho, K.-L.; Chen, Y.-Y.; DUU-JONG LEE | Applied Microbiology and Biotechnology | 32 | 28 | |
2007 | Degradation of phenol by Acinetobacter strain isolated from aerobic granules | Adav, Sunil S.; Chen, Ming-Yuan; Lee, Duu-Jong ; Ren, Nan-Qi | Chemosphere | 117 | 99 | |
2007 | Degradation of phenol by aerobic granules and isolated yeast Candida tropicalis | Adav S.S.; Chen M.-Y.; Lee D.-J. ; Ren N.-Q. | Biotechnology and Bioengineering | 151 | 132 | |
2010 | Degrading high-strength phenol using aerobic granular sludge | Ho K.-L.; Chen Y.-Y.; Lin B.; Lee D.-J. | Applied Microbiology and Biotechnology | 44 | 36 | |
2019 | Dehydrated and recovered aerobic granules: Identifying acetone-dehydration resistant strains | Lv, Y.; Wan, C.; Lee, D.-J.; Liu, X.; Zhang, Y.; Tay, J.-H.; DUU-JONG LEE | Bioresource Technology Reports | | | |
2011 | Denitrifying sulfide removal and carbon methanogenesis in a mesophilic, methanogenic culture | Wong B.-T.; Lee D.-J. | Bioresource Technology | 46 | 35 | |
2014 | Denitrifying sulfide removal and nitrososulfide complex: Azoarcus sp. NSC3 and Pseudomonas sp. CRS1 mix | Lee D.-J. ; Wong B.-T. | Bioresource Technology | 31 | 31 | |
2014 | Denitrifying sulfide removal by enriched microbial consortium: Kinetic diagram | Lee D.-J. ; Wong B.-T. | Bioresource Technology | 17 | 13 | |
2015 | Denitrifying sulfide removal by Pseudomonas sp. C27 at excess carbon supply: Mechanisms | Guo H.; Chen C.; Lee D.-J. ; Wang A.; Ren N. | Bioresource Technology | 12 | 12 | |
2015 | Denitrifying sulfide removal process on high-salinity wastewaters | Liu C.; Zhao C.; Wang A.; Guo Y.; Lee D.-J. | Applied Microbiology and Biotechnology | 35 | 32 | |
2016 | Denitrifying sulfide removal process on high-salinity wastewaters in the presence of Halomonas sp. | Liu C.; Zhao D.; Ma W.; Guo Y.; Wang A.; Wang Q.; Lee D.-J. | Applied Microbiology and Biotechnology | 102 | 72 | |
2016 | Denitrifying sulfide removal process on high-tetracycline wastewater | Liu C.; Xu J.; Lee D.-J. ; Yu D.; Liu L. | Bioresource Technology | 35 | 32 | |
2012 | Denitrifying sulfide removal with methanogenic culture | Viviantira E.; Wan C.; Wong B.-T.; Lee D.-J. | Journal of the Taiwan Institute of Chemical Engineers | 12 | 12 | |
2012 | Dense membranes precoated with aluminium tridecamer (Al 13) for water treatment | Lin J.C.-T.; Cheng A.-C.; Lin Y.-F.; Lee D.-J. ; Guo W.-M. | Desalination | 11 | 9 | |