（一）科研项目

1. 国家自然科学基金项目，1876111，铁基材料催化臭氧形成高级氧化作用的构效关系与机制研究，2019/01- 2022/12，在研，与上海理工大学共同承担

2. 国家科技支撑计划专项，2013BAC01B01，污水处理环境功能材料研制及产业化应用，2013/01– 2015/12,已结题

（二）主要学术论文

1. Fei, J., Lin, X., Li, X. , Huang, Y. , & Ma, L.*. Effect of Fe-based catalytic ozonation and sole ozonation on the characteristics and conversion of organic fractions in bio-treated industrial wastewater. Science of the Total Environment (2021). https://doi.org/10.1016/j.scitotenv.2021.145821

2. Lin, X. , Li, X. , Fei, J. , Ma, L.* , & Huang, Y.*. In-situ growing protective Cr-substituted goethite film on iron shavings (Fe0) as efficient catalytic ozonation catalysts: A comparative study. Journal of Cleaner Production (2021). https://doi.org/10.1016/j.jclepro.2020.125653

3.Wang, H. , Lin, X. , Huang, Y. , Bian, W. , & Ma, L.*. Two advanced oxidation pathways of modified iron-shavings participation in ozonation. Separation and Purification Technology (2020). https://doi.org/10.1016/j.seppur.2020.116838

4. Li, X. , Chen, W. , Ma, L. , Huang, Y. , & Wang, H.*. Characteristics and Mechanisms of Catalytic Ozonation with Fe-shaving-based Catalyst in Industrial Wastewater Advanced Treatment. Journal of Cleaner Production (2019) https://doi.org/10.1016/j.jclepro.2019.03.084 

5. Li, X. , Chen, W. , Ma, L.* , Wang, H. , & Fan, J. . Industrial wastewater advanced treatment via catalytic ozonation with an Fe-based catalyst. Chemosphere (2018). https://doi.org/10.1016/j.chemosphere.2017.12.080

6. Wu, J. , Ma, L. , Chen, Y. , Cheng, Y. , Liu, Y.*, & Zha, X. . Catalytic ozonation of organic pollutants from bio-treated dyeing and finishing wastewater using recycled waste iron shavings as a catalyst: Removal and pathways. Water Research (2016). https://doi.org/10.1016/j.watres.2016.01.053

（三）出版专著

1. 马鲁铭著，废水的催化还原处理技术——原理及应用，科学出版社，2008

（四）获得学术奖励

1. 马鲁铭(1/12)，催化还原技术强化废水生物处理工艺开发，上海市人民政府，技术发明一等奖，2010 

2. 马鲁铭(1/10)，秒级芬顿及铁泥全利用成套工业废水深度处理技术，上海市人民政府，技术发明二等奖，2019

3. 马鲁铭(2/15) 难降解工业废水复合处理技术与工程示范，上海市人民政府，科技进步奖，2009

（五）专利

1. 污水深度处理芬顿法污泥的资源化利用方法，CN105254067B

2. 一种具备臭氧和紫外光催化功能的低温等离子体水处理装置及方法，CN105314705B

3. 一种红土镍矿中和废酸后制备臭氧氧化催化剂γFeOOH的方法，CN105439209B

4. 一种工业废水深度处理的催化臭氧氧化方法，CN104030429B

5. 一种催化臭氧氧化的铁基催化剂单元化填料，CN 106396077A