Ÿ 主持科研项目(近5年) [1]. 国家自然科学基金面上项目,锌电解过程石墨阳极源头减排颗粒物协同提质降耗的机理及强化方法,在研,50万。 [2]. 国家自然科学基金青年项目,典型工业锌电解过程颗粒物的组分富集转化机制及无组织排放规律,在研,30万。 [3]. 山东省高等学校青年创新团队(有色金属减污降碳协同增效创新团队),在研,7.2万。 [4]. 山东省自然科学基金青年项目,锌电解过程颗粒物的影响机制及关键电解参数调控路径,在研,15万。 [5]. 山东省自然科学基金重点项目子课题,基于功能化金属-氮掺杂碳电催化剂的高灵敏甲醛传感器,结题,9万。 [6]. 环境模拟与污染控制国家重点联合实验室(清华大学)开放课题,锌电解过程颗粒物的超声减排机制及优化减排途径研究,结题,8万。 [7]. 永利3044集团官网高层次人才引进计划项目,结题,20万。 [8]. 异味传感网络的开发与应用(横向课题),山东清芯科技有限公司,结题,20万。 Ÿ 代表性科研论文 [1] Zhang R, Ma Z*(Corresponding author), Jiang L*, Gao W, He H, Yu H, Yu T, Yang B, Qu C (2026). Optimizing biochar selection for soil amendment: Unraveling the feedstock-texture interplay for enhanced crop performance. Bioresource Technology, 449: 134391 [2] Ma Z, Li L, Hao Q, Jiang L*, Duan N*, Xu F, Duan L, Jiang J, Wang Y, Tan Y, Zhang H, Liu T, Deng J (2026). Particulate matter generated from electrolysis processes: a review of pollution, formation, and control technologies. ENGINEERING Environment, 20(4): 60 [3] Bai X, Huang Y, Wang Y, Wang Z, Li X, Du R, Long M, Zhang H, Tan Y, Liu T, Chen C, Fan X, Xu Y, Cheng J, Jing S, Ma Z* (Corresponding author), Li Z*, Jiang J (2025). Identification of VOC emission hotspots in industrial parks by high-spatiotemporal-resolution sensor networks. Environment International, 202, 109628. [4] Wu X, Ma Z*(Corresponding author), Tan W, Liu X, Sun S, Liu T, Tan Y, Zhang H* (2025). Bifunctional Ni2P/LDH with specific crystal facet (211, 201, 111) exposure for enhanced hydrodechlorination in organic wastes gasification gas. Separation and Purification Technology: 131505 [5] Wang Y, Li L, Jiang X, Zhang H, Bai X, Huang Y Liu T, Tan, Y, Ma Z* (Corresponding author), Zhang H (2024). Synergistically achieving particulate matter reduction and production performance optimization for zinc electrolysis by ultrasonication coupling anode-coated MnO2. Journal of Environmental Chemical Engineering, 12(6), 114223. [6] Ma Z, Jiang J, Duan L, Li Z, Deng J, Xu F, Li Z, Jiang L, Duan N (2024). Synergistic promotion of particulate matter reduction and production performance via adjusting electrochemical reactions in the zinc electrolysis industry. Front. Environ. Sci. Eng, 18(1): 2 [7] Li Z,Ma Z (Joint First),Zhang Z,Zhang L,et al (2022). High-density volatile organic compound monitoring network for identifying pollution sources. Science of The Total Environment 855, 158872. [8] Ma Z, Jiang J, Duan L, Li Z, Deng J, Li J, Zhang R, Zhou C, Xu F, Jiang L, Duan N (2020). Ultrasonication to reduce particulate matter generated from bursting bubbles: A case study on zinc electrolysis. Journal of Cleaner Production 272, 122697. [9] Ma Z, Duan L, Jiang J, Deng J, Xu F, Jiang L, Li J, Wang G, Huang X, Ye W, Wen Y, Zhang G, Duan N (2020). Characteristics and threats of particulate matter from zinc electrolysis manufacturing facilities. Journal of Cleaner Production 259, 120874. [10] Wang G, Ma Z (Joint First), Deng J, Li Z, Duan L, Zhang Q, Hao J, Jiang J (2019). Characteristics of particulate matter from four coal–fired power plants with low–low temperature electrostatic precipitator in China. Science of The Total Environment 662, 455-461. [11] Ma Z, Li Z, Jiang J, Deng J, Duan L (2016). PM2.5 Emission Reduction by Technical Improvement in a Typical Coal-Fired Power Plant in China. Journal of Aerosol Air Quality Research 17(2). [12] Ma Z, Deng J, Li Z, Li Q, Zhao P, Wang L, Sun Y, Zheng H, Pan L, Zhao S, Jiang J, Wang S, Duan L (2016). Characteristics of NOx emission from Chinese coal-fired power plants equipped with new technologies. Atmospheric Environment 131, 164-170. [13] 马子轸, 李振, 蒋靖坤, 叶芝祥, 邓建国, 段雷, 2015. 燃煤电厂产生和排放的PM2.5中水溶性离子特征. 环境科学 36(07), 2361-2366. Ÿ 发明专利 [1] 马子轸;黄钰涵;张华伟;刘亭;谈琰. 协同脱除有机固废热解气中Hg0、H2S和HCl的碳材料吸附剂的制备方法,2024.12.10.中国,ZL 202410665754.2 [2] 马子轸;王艳慧;白晓灿;黄钰涵;张华伟;谈琰;刘亭;孙英杰;李依静;张海腾. 一种电解过程PM2.5及组分排放因子测量装置及方法, 2023-02-21, 中国, CN202310142722.X [3] 马子轸;白晓灿;王艳慧;黄钰涵;张华伟;刘亭;谈琰;孙英杰;王舜立;叶美吟. 一种电解过程颗粒物减排协同增产降耗工艺参数优化方法, 2023-02-21, 中国, CN202310142940.3 |
