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Transiting from the inhibited steady-state to the steady-state through the ammonium bicarbonate mediation in the anaerobic digestion of low-C/N-ratio food wastes Journal article
Hao, Tianwei, Xiao, Yihang, Varjani, Sunita. Transiting from the inhibited steady-state to the steady-state through the ammonium bicarbonate mediation in the anaerobic digestion of low-C/N-ratio food wastes[J]. BIORESOURCE TECHNOLOGY, 2022, 351, 127046.
Authors:  Hao, Tianwei;  Xiao, Yihang;  Varjani, Sunita
Favorite | TC[WOS]:11 TC[Scopus]:12  IF:9.7/9.4 | Submit date:2022/05/13
Anaerobic Digestion  Low C/n Ratio  Ammonia Nitrogen  Buffer System  Methanogenesis  “inhibited Steady-state”  
Alleviating nutrient imbalance of low carbon-to-nitrogen ratio food waste in anaerobic digestion by controlling the inoculum-to-substrate ratio Journal article
Xiao, Yihang, Zan, Feixiang, Zhang, Weilan, Hao, Tianwei. Alleviating nutrient imbalance of low carbon-to-nitrogen ratio food waste in anaerobic digestion by controlling the inoculum-to-substrate ratio[J]. BIORESOURCE TECHNOLOGY, 2022, 346, 126342.
Authors:  Xiao, Yihang;  Zan, Feixiang;  Zhang, Weilan;  Hao, Tianwei
Favorite | TC[WOS]:27 TC[Scopus]:28  IF:9.7/9.4 | Submit date:2022/03/04
Food Waste  Inoculum-to-substrate Ratio  Low Carbon  Methanogenesis  Methanogenic Pathway  Nitrogen Ratio Anaerobic Digestion  
Genomics-informed insights into microbial degradation of N,N-dimethylformamide Journal article
Li, Junhui, Dijkstra, Paul, Lu, Qihong, Wang, Shanquan, Chen, Shaohua, Li, Deqiang, Wang, Zhiheng, Jia, Zhenglei, Wang, Lu, Shim, Hojae. Genomics-informed insights into microbial degradation of N,N-dimethylformamide[J]. International Biodeterioration and Biodegradation, 2021, 163, 105283.
Authors:  Li, Junhui;  Dijkstra, Paul;  Lu, Qihong;  Wang, Shanquan;  Chen, Shaohua; et al.
Favorite | TC[WOS]:10 TC[Scopus]:10  IF:4.1/4.4 | Submit date:2021/12/08
Genomics  Biodegradation Pathways  Denitrification  Methanogenesis  Plasmid  
Identify the core bacterial microbiome of hydrocarbon degradation and a shift of dominant methanogenesis pathways in oil and aqueous phases of petroleum reservoirs with different temperatures from Chi Journal article
Zhichao Zhou, Bo Liang, Li-Ying Wang, Jin-Feng Liu, Bo-Zhong Mu, Hojae Shim, Ji-Dong Gu. Identify the core bacterial microbiome of hydrocarbon degradation and a shift of dominant methanogenesis pathways in oil and aqueous phases of petroleum reservoirs with different temperatures from Chi[J]. Biogeosciences, 2019.
Authors:  Zhichao Zhou;  Bo Liang;  Li-Ying Wang;  Jin-Feng Liu;  Bo-Zhong Mu; et al.
Favorite | TC[Scopus]:0  IF:3.9/4.5 | Submit date:2019/05/30
Reservoir  Core Microbiome  Oil And Water Phases  Temperature  Methanogenesis  Hydrocrbon