1、擴散菌和絲狀菌共同控制了沉積物微生物燃料電池中硫化物去除的時空過程-Diffusion and filamentous bacteria jointly govern the spatiotemporal process of sulfide removal in sediment microbial fuel cells-Chemical Engineering Journal,2021,405,126680


2、COD/N比和陰極生理分層對單室微生物燃料電池綜合性能、細菌群落結構的影響-Comprehensive performance,bacterial community structure of single-chamber microbial fuel cell affected by COD/N ratio and physiological stratifications in cathode-Bioresource Technology,2021,320,124416


3、光強影響了以酸豆屬植物A8為陰極微生物的光微生物燃料電池的性能-Light intensity affects the performance of photo microbial fuel cells with Desmodesmus sp.A8 as cathodic microorganism-Applied Energy,2014,116,86–90


4、Hotspot of dissimilatory nitrate reduction to ammonium(DNRA)process in freshwater sediments of riparian zones-河岸帶淡水沉積物中硝酸鹽異化還原為銨(DNRA)過程研究熱點-Water Research,2020,173,115539


5、Electron Acceptor-Dependent Respiratory and Physiological Stratifications in Biofilms-生物膜中依賴電子受體的呼吸和生理分層-Environ.Sci.Technol.2015,49,196?202