Yang W, Logan BE. Immobilization of a metal–nitrogen–carbon catalyst on activated carbon with enhanced cathode performance in microbial fuel cells. ChemSusChem. 2016;9(16):2226-2232.

Kim K-Y, Yang W, Ye Y, LaBarge N, Logan BE. Performance of Anaerobic Fluidized Membrane Bioreactors Using Effluents of Microbial Fuel Cells Treating Domestic Wastewater. Bioresource Technology. 2016.

He W, Yang W, Tian Y, Zhu X, Liu J, Feng Y, Logan BE. Pressurized air cathodes for enhanced stability and power generation by microbial fuel cells. Journal of Power Sources. 2016;332:447-453.

Yang W, Watson VJ, Logan BE. Substantial humic acid adsorption to activated carbon air cathodes produces a small reduction in catalytic activity. Environmental science & technology. 2016;50(16):8904-8909.

Yang W. Development and optimization of activated carbon air cathode towards scale up applications of microbial fuel cells. 2016.

Kim K-Y, Yang W, Evans PJ, Logan BE. Continuous treatment of high strength wastewaters using air-cathode microbial fuel cells. Bioresource technology. 2016;221:96–101.

He W, Wallack MJ, Kim K-Y, Zhang X, Yang W, Zhu X, Feng Y, Logan BE. The effect of flow modes and electrode combinations on the performance of a multiple module microbial fuel cell installed at wastewater treatment plant. Water Research. 2016;105:351–360.

Tian Y, He W, Zhu X, Yang W, Ren N, Logan BE. Energy efficient electrocoagulation using an air-breathing cathode to remove nutrients from wastewater. Chemical Engineering Journal. 2016;292:308–314.

Yang W, Logan BE. Engineering a membrane based air cathode for microbial fuel cells via hot pressing and using multi-catalyst layer stacking. Environmental Science: Water Research & Technology. 2016;2:858–863.

Yang W, Logan BE. Immobilization of a metal–nitrogen–carbon catalyst on activated carbon with enhanced cathode performance in microbial fuel cells. ChemSusChem. 2016;9:2226–2232.

Kim K-Y, Yang W, Ye Y, LaBarge N, Logan BE. Performance of Anaerobic Fluidized Membrane Bioreactors Using Effluents of Microbial Fuel Cells Treating Domestic Wastewater. Bioresource Technology. 2016.

He W, Yang W, Tian Y, Zhu X, Liu J, Feng Y, Logan BE. Pressurized air cathodes for enhanced stability and power generation by microbial fuel cells. Journal of Power Sources. 2016;332:447–453.

Yang W, Watson VJ, Logan BE. Substantial humic acid adsorption to activated carbon air cathodes produces a small reduction in catalytic activity. Environmental science & technology. 2016;50:8904–8909.

Zhang X, He W, Yang W, Liu J, Wang Q, Huang X, Logan B. Diffusion Layer Characteristics for Increasing Performance of Activated Carbon Air-cathodes in Microbial Fuel Cells. Environmental Science: Water Research & Technology. 2015.

Yang W, Kim K-Y, Logan BE. Development of carbon free diffusion layer for activated carbon air cathode of microbial fuel cells. Bioresource Technology. 2015;197:318-322.

Zhang F, LaBarge N, Yang W, Liu J, Logan BE. Enhancing low‐grade thermal energy recovery in a thermally regenerative ammonia battery using elevated temperatures. ChemSusChem. 2015;8(6):1043-1048.

Kim K-Y, Yang W, Logan BE. Impact of electrode configurations on retention time and domestic wastewater treatment efficiency using microbial fuel cells. Water research. 2015;80:41-46.

Zhang F, Liu J, Yang W, Logan BE. A thermally regenerative ammonia-based battery for efficient harvesting of low-grade thermal energy as electrical power. Energy & Environmental Science. 2015;8(1):343-349.

Zhang X, He W, Yang W, Liu J, Wang Q, Huang X, Logan B. Diffusion Layer Characteristics for Increasing Performance of Activated Carbon Air-cathodes in Microbial Fuel Cells. Environmental Science: Water Research & Technology. 2015.

Yang W, Kim K-Y, Logan BE. Development of carbon free diffusion layer for activated carbon air cathode of microbial fuel cells. Bioresource technology. 2015;197:318–322.