1. Liu A.R.*,Fu J.H. ,Liu J.,Shi S.J.,Liu Z.L.,Xiao Q.,Zhang W.-X.,Deciphering the roles of iron sulfides in sulfidated nanoscale zero-valent iron for arsenite sequestration under anoxic water，Water Research, 2026, 288, 124790.

2. Liu Z.L.,Fu J.H. ,Xiao Q.,Zhang W.-X.,Liu A.R.*,Influence of Humic Acid on Nanoscale Zero-Valent Iron Reaction in Oxic Water: Structural Evolution, •OH Generation and As(Ⅲ) Sequestration, Environmental Science＆Technology.2025, 59, 22262–22272.（前封面）

3. Liu A.R.*,Fu J.H. ,Liu Z.L.,Shi S.J.,Zhang W.-X. *,Interfacial reactions and speciation identification during arsenic treated with nanoscale zerovalent iron (nZVI) in water: A review. Water Research, 2025, 283: 123829.

4. Fu J.H. ,Liu Z.L.,Huang K.E.,Cao Zh.,Liu A.R.*,Zhang W.-X., Polyacrylamide-Modified Sulfidated Nanoscale Zerovalent Iron for Arsenic-Contaminated Groundwater Remediation: Enhanced Surface Reactivity and Mobility，ACS ES＆T Water 2025，5(11), 6896-6906.

5. Huang Q.,..., Zhang W.-X., Hu J., Tai R. Z., Wang S.Z, Liu A.R.*, Zhang L. J.*, Hydrogen Nanobubbles Generated In Situ from Nanoscale Zerovalent Iron with Water to Further Enhance Selenite Sequestration, Environmental Science＆Technology. 2024, 58, 4357-4367.（补充封面）

6. Liu A.R.*, Huang K.E., Liu J., Zhang W.-X. *, Synthesis of Nanoscale Zero Valent Iron Particles and Their Application in Aquatic Chemistry Study. Journal of Chemical Education, 2025, 102,53 16-5323. (前封面）

7. Wang Sh., Al-Hasni N., Liu, Z. L., Liu A.R.*, Multifaceted Aquatic Environmental Differences between Nanoplastics and Microplastics: Behavior and Fate.，Environment & Health. 2024, 2, 688-701.

8. Liu Z.L., Fu J.H. , Liu A.R.*, Zhang W.-X. , Influence of natural organic matter on nanoscale zero-valent iron for contaminants removal in water: A critical review, Chemical Engineering Journal., 2024, 488, 150836.

9. Liu J., Yang S.M., Liu A.R.*, Huang Q., Zhang W.-X., Wang S.Z. and Xiao Q.F., Enhanced oxidative and adsorptive removal of arsenite by the heterogeneous interfacial reaction of sulfidated nanoscale zerovalent iron. Environental Science: Nano.2023, 10，2646.（前封面）

10. Liu J., Liu A.R.*，Wei Y., Fu J.H., Zhang W.-X., Nanoscale zero-valent iron integrated with bioreactor for recalcitrant antimony-Congo red dyeing wastewater treatment, Progress in Natural Science: Materials International. 2023, 33, 569-574.（前封面）

11. Liu Z.L., Liu A.R.*, Wang S., Liu J., Wang W., Zhang W.-X., Wang S.Z., Phase transformation of nanoscale zero-valent iron and concurrent arsenite sequestration under oxic water environment, Journal of Environmental Chemical Engineering. 2023, 11, 110896.

12. Liu, J.;Liu A.R. *, Li, J., Liu, S., Zhang, W. X. Probing the performance andmechanisms of Congo red wastewater decolorization with nanoscale zero-valent iron in the continuing flow reactor. Journal of Cleaner Production. 2022, 346, 131201.

13. Liu A.R.*, Fu J. H., Liu J., Zhang W. X., Copper Nanostructure Genesis via Galvanic Replacement and Kirkendall Growth from Nanoscale Zero-Valent Iron，ACS ES&T Water，2022, 2, 1353-1359.（补充封面）

14. 杨思明, 刘爱荣*, 刘静, 刘钊丽, 张伟贤. 硫化纳米零价铁研究进展:合成、性质及环境应用, 化学学报, 2022, 80, 1536-1554.

15. 刘静, 刘爱荣*, 张伟贤. 纳米铁强化生物技术处理染料废水的效能研究, 中国环境科学, 2022. 42, 5643-5649.

16. Huang, Q. , Gu, T. , Liu A.R. * , Liu, J. , & Zhang, W. X, Probing pollutant reactions at the iron surface: a case study on selenite reactions with nanoscale zero-valent iron, Environmental Science: Nano, 2021,8, 2650-2659.

17. Liu J., Liu A.R. *, Guo J. Zhou T., Zhang W. X., Enhanced aggregation and sedimentation of nanoscale zero-valent iron (nZVI) with polyacrylamide modification, Chemosphere, 2021, 263, 127875.

18. Liu J., Li R.F., Yao Y. H., Liu A.R.*, Fate and mechanistic insights into the transformation of aged nanoscale zero-valent iron reacted with Cr(VI): Impact of aging time in oxic water, ACS Earth and Space Chemistry, 2019,3,1288-1295.（补充封面）

19. Liu A.R., Wang W., Liu J., Fu R., Zhang W.-X. (*), Nanoencapsulation of Arsenate with Nanoscale Zero-Valent Iron (nZVI): A 3D Perspective. Science Bulletin, 2018, 63, 1641-1648.

20. Liu A.R., Liu J., Han J, Zhang W.-X. (*), Evolution of nanoscale zero-valent iron (nZVI) in water: Microscopic and spectroscopic evidence on the formation of nano- and micro-structured iron oxides. Journal of Hazardous Materials, 2017, 322, 129-135. (ESI高被引论文）

论文封面：

二、主持基金项目

1. 合作研究：基于同步辐射的微纳米气泡增强纳米零价铁去除水体污染物的效能和机理研究（在研）

2. 国家自然科学基金面上项目：聚电解质修饰的硫化纳米零价铁修复地下水中砷的界面化学和作用机制研究; （2021-2024）

3. 国家自然科学基金面上项目：纳米零价铁在水环境中动态结构性能演变及六价铬去除机制研究; （2017-2020）

4.  国家自然科学基金青年项目，石墨烯表面纳米粒子修饰及其用于制备生物传感器的研（2011-2013）

5. 国家重点研发计划项目：有色金属矿区地下水治理和修复技术，子课题主持（2019YFCxx5300）

6.  国家重点研发计划项目：存余垃圾无害化处置与二次污染防治技术及装备，子课题主持（2018YFCXX1400）

7. 污染控制与资源化研究国家重点实验室自主课题：硫原子对纳米零价铁的界面调控及去除水体中砷污染的反应机制研究（PCRRC20021）

8. 中央高校基本科研业务费专项基金：纳米零价铁的基础研究：核壳结构与重金属反应机理（2011-2013）

9. 污染控制与资源化研究国家重点实验室自主课题：纳米零价铁水化学研究（PCRRE16017）

三、主讲课程：

本科生：水化学、学科能力竞赛训练、能源形势及其利用、环境科学前沿等

研究生：水化学理论与应用

四、主持教改课题：

1. 同济大学研究生核心课程建设-水化学理论与应用，2019.6-2021.5;

2. 同济大学研究生课程思政建设项目-水化学理论与应用，2020.1-2021.12.

五、专利

1. 2024XXXX00708260, 2024.1.11, 一种纳米零价铁和氢气纳米气泡协同处理金属污染物的方法.

2. US114794XX, 授权日期：2022.10.25.（美国专利）Nano iron biological coupling device for organic wastewater and its process.

3. 2023XXX23459，2023.11.21,用于矿区地下水重金属复合污染原位修复的铁基纳米材料及其制备方法和应用

4. CN1048584XX，2015.5.13，一种减弱金属纳米颗粒氧化的方法