Yu, Bing, Yu, Hai, Li, Kangkang, Ji, Long, Yang, Qi, Wang, Xiaolong, Chen, Zuliang, Megharaj, Mallavarapu. American Chemical Society; 2018. A diamine-based integrated absorption-mineralization process for carbon capture and sequestration: energy savings, fast kinetics, and high stability.
Jin, Xiaoying, Zhuang, Zechao, Yu, Bing, Chen, Zhengxian, Chen, Zuliang. Elsevier; 2016. Functional chitosan-stabilized nanoscale zero-valent iron used to remove acid fuchsine with the assistance of ultrasound.
Yu, Bing. CO₂ capture by aqueous diamine solutions. 2019.
Yu, Bing, Yu, Hai, Li, Kangkang, Yang, Qi, Zhang, Rui, Li, Lichun, Chen, Zuliang. Elsevier; 2017. Characterisation and kinetic study of carbon dioxide absorption by an aqueous diamine solution.
Yu, Bing, Yu, Hai, Li, Kangkang, Ji, Long, Yang, Qi, Chen, Zuliang, Megharaj, Mallavarapu. Elsevier; 2019. Integration of a diamine solvent based absorption and coal fly ash based mineralisation for CO₂ sequestration.
Yu, Bing, Jin, Xiaoying, Kuang, Ye, Megharaj, Mallavarapu, Naidu, Ravendra, Chen, Zuliang. Elsevier; 2015. An integrated biodegradation and nano-oxidation used for the remediation of naphthalene from aqueous solution.
Chen, Yuan, Yu, Bing, Lin, Jiajiang, Naidu, Ravi, Chen, Zuliang. Elsevier; 2016. Simultaneous adsorption and biodegradation (SAB) of diesel oil using immobilized Acinetobacter venetianus on porous material.
Yu, Bing, Li, Hao, Ma, Tianyi, White, Jai, Donne, Scott, Yi, Jiabao, Xi, Shibo, Fu, Yang, Henkelman, Graeme, Yu, Hai, Chen, Zuliang. Wiley; 2020. Tuning the catalytic preference of ruthenium catalysts for nitrogen reduction by atomic dispersion.
Fu, Yang, Richardson, Peter, Li, Kangkang, Yu, Hai, Yu, Bing, Donne, Scott, Kisi, Eric, Ma, Tianyi. SpringerOpen; 2020. Transition metal aluminum boride as a new candidate for ambient-condition electrochemical ammonia synthesis.
Jin, Xiaoying, Yu, Bing, Lin, Jiajiang, Chen, Zuliang. American Chemical Society; 2016. Integration of biodegradation and nano-oxidation for removal of PAHs from aqueous solution.