基本信息

职称：资格副教授

所在系室：环境科学与工程系

联系方式：18236887126@163.com

通信地址：365be体育入口(中国)有限公司官网，243002

教育背景

2019.03-2023.06 东南大学，环境科学与工程专业，博士研究生

2015.09-2018.06 河南理工大学，化学工程专业，硕士研究生

2011.09-2015.06 河南理工大学，化学工程与工艺专业，大学本科

研究方向

先进功能材料制备；环境中重金属污染控制；高级氧化技术

科研项目

（1）2020.06-2021.06 2020年江苏省研究生科研创新计划项目《高温燃煤烟气中新型砷吸附剂制备及吸附机制研究》（主持）

（2）2018.07-2021.07 国家重点研发计划项目《燃煤过程中砷、硒、铅等重金属的控制技术》（参与）

代表性论文专著

[1] B. Song, K. Yuan, Y. Wei, D. Chen, F. Meng, Q. Cao, M. Song, H. Liu, In-Furnace Control of Arsenic Vapor Emissions Using Fe₂O₃ Microspheres with Good Sintering Resistance. Environmental Science & Technology. 55 (2021) 8613-8621. (中科院一区，IF: 11.357)

[2] B. Song, Z. Zhi, Q. Zhou, D. Wu, L. Yu, F. Gong, M. Song, Enhanced arsenic removal by reusable hexagonal CeO₂/Fe₂O₃ nanosheets with exposed (0001) facet. Science of The Total Environment. 847 (2022). 157490. (中科院一区，IF: 10.753)

[3] B. Song, M. Song, D. Chen, Y. Cao, F. Meng, Y. Wei, Retention of arsenic in coal combustion flue gas at high temperature in the presence of CaO. Fuel, 259 (2020) 116249. (中科院一区，IF: 8.035)

[4] Y. Cao, B. Song, M. Song^⁎, F. Meng, Y. Wei, Q. Cao, Capture of arsenic in coal combustion flue gas at high temperature in the presence of CaSiO₃ with good anti-sintering. Fuel Processing Technology. 205 (2020) 106428. (中科院一区，IF: 8.129，共一)

[5] B. Song, Q. Tang, W. Wu, H. Zhang, J. Cao, M. Ma, A novel in-situ synthesis and enhanced photocatalytic performance of Z-scheme Ag/AgI/AgBr/sulfonated polystyrene heterostructure photocatalyst. Journal of Inorganic and Organometallic Polymers and Materials. 28 (2018) 805-811. (中科院三区，IF: 3.518)

[6] B. Song, Q. Tang, Q. Li, W. Wu, H. Zhang, J. Cao, M. Ma, A novel in-situ synthesis and enhanced photocatalytic performance of Ag/AgI/AgBr/Sulfonated polystyrene heterostructure photocatalyst. Materials Letters. 209 (2017) 622-625. (中科院三区，IF: 3.574)

[7] B. Song, Q. Tang, W. Wu, T. Shao, Q. Li, J. Cao, M. Ma, A novel in-situ synthesis and enhanced photocatalytic performance of Ag/AgBr/Ag₂O/sulfonated polystyrene sphere heterostructure photocatalyst. Materials Letters. 208 (2017) 92-94. (中科院三区，IF: 3.574)

[8] B. Song, Q. Tang, Q. Li, W. Wu, H. Zhang, J. Cao, M. Ma, Template assisted synthesis of Ag/AgBr/AgCl hollow microspheres with heterojunction structure as highly activity and stability photocatalyst. Materials Letters. 209 (2017) 251-254.(中科院三区，IF: 3.574)

[9] Song, M., Song, B., Meng, F., Chen, D., Sun, F., & Wei, Y. Incorporation of humic acid into biomass derived carbon for enhanced adsorption of phenol. Scientific reports, 1 (2019) 1-8. (中科院三区，IF: 4.996)