1. 发表的学术论文
[1] Pan Jianxin, Liu Liangliang, Pan Hanping, Yang Lihui, Su Meirong*, Wei Chaohai. A feasibility study of metal sulfide (FeS and MnS) on simultaneous denitrification and chromate reduction. J Hazard Mater, 2022, 424:127491.
[2] Pan Jianxin, Ma Jingde, Wu Haizhen, Chen Ben, He Meiling, Liao Chen, Wei Chaohai*. Application of Metabolic Division of Labor in Simultaneous Removal of Nitrogen and Thiocyanate from Wastewater. Water Res, 2019, 150:216-224.
[3] Pan Jianxin, Wei Chaohai, Fu Bingbing, Ma Jingde, Preis Sergei, Wu Haizhen*, Zhu Shuang. Simultaneous nitrite and ammonium production in an autotrophic partial denitrification and ammonification of wastewaters containing thiocyanate. Bioresource Technol, 2018, 252: 20-27.
[4] Pan Jianxin, Ma Jingde, Wu Haizhen, Ren Yuan, Fu Bingbing, He Meiling, Zhu Shuang, Wei Chaohai*. Simultaneous removal of thiocyanate and nitrogen from wastewater by autotrophic denitritation process. Bioresource Technol, 2018, 267: 30-37.
[5] Wei Chaohai*, Li Zemin, Pan Jianxin, Fu Bingbing, Wei Jingyue, Chen Ben, Yang Xingzhou, Ye Guojie, Wei Cong, Luo Pei, Wu Chaofei, Qiu Guanglei, Wu Haizhen. An Oxic−Hydrolytic−Oxic Process at the Nexus of Sludge Spatial Segmentation, Microbial Functionality, and Pollutants Removal in the Treatment of Coking Wastewater. ACS ES&T Water, 2021,1(5):1252-1262.
[6] Chen Ben, Yang Zhao, Pan Jianxin, Ren Yuan, Wu Haizhen, Wei Chaohai*. Functional identification behind gravity-separated sludge in high concentration organic coking wastewater: Microbial aggregation, apoptosis-like decay and community. Water Res, 2019,150:120-128.
[7] Ma Jingde1, Wei Jingyue1, Kong Qiaoping*, Li Zemin, Pan Jianxin, Chen Ben, Qiu Guanglei, Wu Haizhen, Zhu Shuang, Chaohai Wei*. Synergy between autotrophic denitrification and Anammox driven by FeS in a fluidized bed bioreactor for advanced nitrogen removal. Chemosphere 2021,280: 20130726.
[8] Chen Ben, Zhao Yasi, Li Zemin, Pan Jianxin, Wu Haizhen, Qiu Guanglei, Feng Chunhua, Wei Chaohai*. Immobilization of Phosphatidylserine by Ethanol and Lysozyme on the Cell Surface for Evaluation of Apoptosis-Like Decay in Activated-Sludge Bacteria. Appl Environ Microb, 2020, 86:e00345-20. https://doi.org/10.1128/AEM.00345-20.
[9] Lin Qintie*, Pan Jianxin, Lin Qinlu, Liu Qianjun. Microwave synthesis and adsorption performance of a novel crosslinked starch microsphere. J Hazard Mater, 2013, 263:517-524.
[10] 付炳炳,潘建新,马景德,王丰,吴海珍*,韦朝海,采用含硫铁化学污泥作为反硝化电子供体进行焦化废水中总氮深度去除,环境科学,2018,39(7):3263-3270.
[11] 马景德,潘建新,李泽敏,王一显,吴海珍,韦朝海*,FeS 自养反硝化与厌氧氨氧化的耦合脱氮机制,环境科学,2019,40(8):3684-3690.
[12] 何美玲,韦朝海*,吴海珍,邱光磊,潘建新,废水处理不同脱氮路径盐分形成与影响因素分析,环境科学学报,2019,39(5):1527-1535.
[13] 潘建新,林亲铁*,林亲录,王文英,交联淀粉微球微波辅助反相乳液法合成及性能研究,环境化学,2013,32(8):1532-1538.
2. 申请的发明专利
[1] 韦朝海、付炳炳、潘建新、马景德、吴海珍,一种利用含硫铁化学污泥对废水深度脱氮的方法, 2017-12-14, 中国, 201711336839.2.
[2] 林亲铁、潘建新、赵健鄂,一种高效吸附性变性淀粉微球的制备方法及应用,2014-03-22,中国,ZL201410107494.3.
[3] 潘建新、魏任、苏美蓉、刘亮亮,提高短程反硝化过程中亚硝酸盐积累的方法,2021-07-30,中国,202110877914.6.