实验室学术骨干

当前位置: 首页 >> 研究队伍 >> 研究人员 >> 实验室学术骨干 >> 正文

马金星

发布日期:2022-09-01    作者:     来源:     点击:

广东工业大学  生态环境与资源学院  教授,博导。

一 基本信息

马金星,同济大学环境工程工学博士,国家优秀青年科学基金项目(海外)、广东省自然科学杰出青年基金项目获得者。


担任学院教工第一党支部副书记、2021级研究生兼职辅导员。

联系地址:广州市番禺区大学城外环西路100号科技北楼601-6室;

联系方式:jinxing.ma@gdut.edu.cn

邮政编码:510006。

二 研究方向

电化学水清洁新原理与新技术、污水资源化与生态修复技术。

三 教育经历

2010.09-2015.09,同济大学,环境科学与工程,获博士学位;

2006.09-2010.07,同济大学,环境科学与工程,获学士学位;

2007.09-2009.07,复旦大学,金融学,辅修专业。

四 工作经历

2021.01-至今,广东工业大学 生态环境与资源学院、环境生态工程研究院,教授、硕导/博导;

2019.02-2020.12,澳大利亚新南威尔士大学,工学院博士后;

2016.02-2019.02,澳大利亚新南威尔士大学,校长特邀博士后。

五 学术兼职

1.国际SCI期刊Chinese Chemical Letters(IF=8.455)学术编委(2021-);

2.国际SCI期刊Desalination(IF=11.211)青年编委(2022-);

3.国际期刊Carbon Research 青年编委(2022-);

4.中文期刊《能源环境保护》青年编委(2023-);

5.国际SCI期刊Frontiers in Chemistry(IF=5.545)、Water(IF=3.530)客座编辑;

6.国际水协(International Water Association)会员,中国青年委员会IWA YWP委员;

7.第六届电池电容去离子与电分离大会共同主席(6th BDI&E 2023 (bdie2023.org))。

六 科研项目

1.国家自然科学基金优秀青年科学基金项目(海外),污水再生与资源化,在研,主持;

2.国家重点研发计划“典型有机污染钠基废盐高值利用技术与装备”项目子课题,2022-11至2026-10,在研,主持;

3.国家自然科学基金青年科学基金项目,流动阳极氧化难降解污染物过程中吸附态自由基选择性生成机制, 2022-01至2024-12,30万,在研,主持;

4.广东省自然科学基金-杰出青年项目, 2022-01至2025-12,100万,在研,主持;

5.广州市基础与应用基础研究项目“膜曝气反应器中微藻捕集二氧化碳过程机制研究”,2022-04至2024-03,5万,在研,主持;

6.澳大利亚科学研究委员会,Ammonia recovery from wastewaters using flow electrode-membrane systems,2019-07至2022-06,80万澳币,结题,共同主持;

7.澳大利亚新南威尔士大学工学院博士后项目,Flow-electrode technologies for water reclamation and selective resource recovery,2019-02至2020-12,33万澳币,结题,主持;

8.James N Kirby基金会项目,Brackish water desalination for remote communities,2018-08至2019-08,1.4万澳币,结题,主持;

9.澳大利亚新南威尔士大学校长特邀博士后项目,Faradaic reactions at electrode interfaces in electrochemical water treatment: mechanisms, modeling and process optimisation,2016-02至2019-02,30万澳币,结题,主持。

七 科研成果

在环境工程领域发表SCI论文110余篇(自然指数Nature Index检索40篇,Water Research发表22篇,Environmental Science & Technology发表18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5500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.* and Ma, 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–CO3 ternary 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.

八 我的团队

博士研究生(协作指导):杨奎、祖道远、罗亮(重庆大学)

硕士研究生:2021级 陶冶文、何佳洲;2022级 梁颖麟、梁子誉、何伟铤、黄亚宁、林滨城

以杨志峰院士为团队带头人的水再生与资源回收研究组,欢迎有环境、化学、生物等专业背景的学生报考博士、硕士研究生!

上一条:陈姗姗

下一条:张众

关闭