在环境工程领域发表SCI论文110余篇(自然指数Nature Index检索42篇,Water Research发表23篇,Environmental Science & Technology发表19篇);7篇论文入选环境/生态、化学领域ESI热点、高被引文章;谷歌学术引用5900余次,H因子为42;2019年至今连续入选“全球前2%顶尖科学家”。Web of Science: Researcher ID D-9981-2013。代表性研究成果如下:
1.Luo, L., He, Q., Yi, D., Zu, D.,Ma, J.*and Chen, Y.*, 2022. Indirect charging of carbon by aqueous redox mediators contributes to the enhanced desalination performance in flow-electrode CDI. Water Research, 118688;
2.Luo, L., He, Q., Ma, Z., Yi, D., Chen, Y.* andMa, J.*, 2021. In situ potential measurement in a flow-electrode CDI for energy consumption estimation and system optimization. Water Research, 117522;
3.Xie, J.#,Ma, J.#, Zhao, S. and Waite, T.D., 2021. Flow anodic oxidation: Towards high-efficiency removal of aqueous contaminants by adsorbed hydroxyl radicals at 1.5 V vs SHE. Water Research, 200, 117259;(共同一作)
4.Kong, X.,Ma, J.*, Le-Clech, P., Wang, Z., Tang, C.Y. and Waite, T.D., 2020. Management of concentrate and waste streams for membrane-based algal separation in water treatment: A review. Water Research, 183, 115969;
5.Ma, J.#, Ma, J.#, Zhang, C., Song, J., Dong, W. and Waite, T.D., 2020. Flow-electrode capacitive deionization (FCDI) scale-up using a membrane stack configuration. Water Research, 168, 115186;
6.Ma, J., Zhang, Y., Collins, R.N., Tsarev, S., Aoyagi, N., Kinsela, A.S., Jones, A.M. and Waite, T.D., 2019. Flow-electrode CDI removes the uncharged Ca–UO2–CO3ternary complex from brackish potable groundwater: Complex dissociation, transport, and sorption. Environmental Science & Technology, 53(5), 2739-2747;
7.Ma, J.#,Ma, J.#, Zhang, C., Song, J., Collins, R.N. and Waite, T.D., 2019. Water recovery rate in short-circuited closed-cycle operation of flow-electrode capacitive deionization (FCDI). Environmental Science & Technology, 53(23), 13859-13867;(共同一作)
8.Ma, J., He, C., He, D., Zhang, C. and Waite, T.D., 2018. Analysis of capacitive and electrodialytic contributions to water desalination by flow-electrode CDI. Water Research, 144, 296-303;
9.He, C.#,Ma, J.#, Zhang, C., Song, J. and Waite, T.D., 2018. Short-circuited closed-cycle operation of flow-electrode CDI for brackish water softening. Environmental Science & Technology, 52 (16), 9350-9360;(共同一作)
10.Ma, J., Wang, Z., Zhang, J., Waite, T.D. and Wu, Z., 2017. Cost-effective Chlorella biomass production from dilute wastewater using a novel photosynthetic microbial fuel cell (PMFC). Water Research, 108, 356-364;
11.Ma, J., He, D., Tang, W., Kovalsky, P., He, C., Zhang, C. and Waite, T.D., 2016. Development of redox-active flow electrodes for high-performance capacitive deionization. Environmental Science & Technology, 50(24), 13495-13501;
12.Ma, J., He, D., Collins, R.N., He, C. and Waite, T.D., 2016. The tortoise versus the hare-Possible advantages of microparticulate zerovalent iron (mZVI) over nanoparticulate zerovalent iron (nZVI) in aerobic degradation of contaminants. Water Research, 105, 331-340;
13.Ma, J., Wang, Z., He, D., Li, Y. and Wu, Z., 2015. Long-term investigation of a novel electrochemical membrane bioreactor for low-strength municipal wastewater treatment. Water Research, 78, 98-110;
14.Ma, J., Wang, Z., Yang, Y., Mei, X. and Wu, Z., 2013. Correlating microbial community structure and composition with aeration intensity in submerged membrane bioreactors by 454 high-throughput pyrosequencing. Water Research, 47 (2), 859-869.