[1]Isolation and Irradiation-Modification of Lignin Specimens from Black Liquor and Evaluation of Their Effects on Wastewater Purification. Chen, Jing-ping,Chen, Liang,Wu, Xiao-fen,Su, Xiao-jun,Amartey, Samuel,Qin, Wensheng. 2014

[2]Strategic enhancement of algal biomass, nutrient uptake and lipid through statistical optimization of nutrient supplementation in coupling Scenedesmus obliquus-like microalgae cultivation and municipal wastewater treatment. Zhang, Chunmin,Zhang, Yalei,Zhou, Xuefei,Zhuang, Baolu.

[3]Complete genome of Thauera humireducens SgZ-1, a potential bacterium for environmental remediation and wastewater treatment. Ma, Chen,Zhang, Qun,Yang, Guiqin,Zhuang, Li,Zhou, Shungui.

[4]Isolation of microalgae with growth restriction and nutrient removal from alkaline wastewater. Ji Fang,Li Gang,Zhou Yuguang,Dong Renjie,Ji Fang,Li Gang,Zhou Yuguang,Dong Renjie,Ji Fang,Wang Yingkuan. 2015

[5]Factors affecting the performance of microbial fuel cells for sulfide and vanadium (V) treatment. Zhang, Bao-Gang,Zhao, Hua-Zhang,Kong, Ling-Cai,Sun, Juan-Juan,Ni, Jin-Ren,Zhou, Shun-Gui,Shi, Chun-Hong,Yang, Yang.

[6]Simultaneous removal of sulfide and organics with vanadium(V) reduction in microbial fuel cells. Zhang, Baogang,Zhao, Huazhang,Ni, Jinren,Shi, Chunhong,Zhou, Shungui.

[7]Naturally derived carbon nanofibers as sustainable electrocatalysts for microbial energy harvesting: A new application of spider silk. Zhou, Lihua,Fu, Peng,Cai, Xixi,Zhou, Shungui,Yuan, Yong.

[8]Glycerol Stabilized NaBH4 Reduction for Preparation Carbon Supported Pt-Ni Alloy Nanoparticles Used as Oxygen-Reduction Electrocatalysts for Microbial Fuel Cells. Wang, Zhong,Wang, Min,Zhao, Jinsheng,Wang, Zhong,Yan, Zhenhua. 2015

[9]Bio-current as an indicator for biogenic Fe(II) generation driven by dissimilatory iron reducing bacteria. Li, Fangbai,Feng, Chunhua,Yue, Xianjun,Wei, Chaohai.

[10]A polypyrrole/anthraquinone-2,6-disulphonic disodium salt (PPy/AQDS)-modified anode to improve performance of microbial fuel cells. Feng, Chunhua,Ma, Le,Mai, Hongjian,Lang, Xuemei,Fan, Shuanshi,Li, Fangbai.

[11]Honeycomb-like hierarchical carbon derived from livestock sewage sludge as oxygen reduction reaction catalysts in microbial fuel cells. Deng, Lifang,Yuan, Haoran,Ruan, Yingying,Chen, Yong,Cai, Xixi,Zhou, Shungui,Yuan, Yong,Deng, Lifang,Yuan, Haoran,Ruan, Yingying.

[12]Arsenite oxidation and removal driven by a bio-electro-Fenton process under neutral pH conditions. Wang, Xiang-Qin,Liu, Chuan-Ping,Yuan, Yong,Li, Fang-bai.

[13]A Simple Method of Improving Microbial Fuel-Cell Performance Based on Polyaniline/Carbon Composite Anodes. Yuan, Yong,Kim, Sunghyun.

[14]Wiring microbial biofilms to the electrode by osmium redox polymer for the performance enhancement of microbial fuel cells. Yuan, Yong,Shin, Hyosul,Kang, Chan,Kim, Sunghyun.

[15]Microbial fuel cell with an azo-dye-feeding cathode. Liu, Liang,Li, Fang-bai,Liu, Liang,Feng, Chun-hua,Li, Xiang-zhong,Liu, Liang.

[16]In-situ Cr(VI) reduction with electrogenerated hydrogen peroxide driven by iron-reducing bacteria. Liu, Liang,Yuan, Yong,Li, Fang-bai,Liu, Liang,Feng, Chun-hua,Liu, Liang.

[17]Understanding the role of Fe(III)/Fe(II) couple in mediating reductive transformation of 2-nitrophenol in microbial fuel cells. Li, Fangbai,Liu, Liang,Tong, Hui,Feng, Chunhua,Feng, Chunhua,Liu, Yongye,Yue, Xianjun,Sun, Kewen.

[18]Enantio-selective preparation of (S)-1-phenylethanol by a novel marine GDSL lipase MT6 with reverse stereo-selectivity. Deng, Dun,Zhang, Yun,Sun, Aijun,Hu, Yunfeng,Deng, Dun,Zhang, Yun,Sun, Aijun,Hu, Yunfeng,Deng, Dun,Hu, Yunfeng. 2016

[19]Production of Adipic Acid from Sugar Beet Residue by Combined Biological and Chemical Catalysis. Zhang, Hongfang,Su, Xiaoyun,Ang, Ee Lui,Zhao, Huimin,Li, Xiukai,Zhang, Yugen,Su, Xiaoyun,Zhao, Huimin,Zhao, Huimin,Zhao, Huimin. 2016

[20]Chemical structures, biosynthesis, bioactivities, biocatalysis and semisynthesis of tobacco cembranoids: An overview. Yan, Ning,Du, Yongmei,Liu, Xinmin,Zhang, Hongbo,Liu, Yanhua,Zhang, Peng,Gong, Daping,Zhang, Zhongfeng.