教学科研机构

本科毕业于重庆大学，取得工学学士与管理学学士双学位。博士毕业于天津大学环境科学与工程学院、天津市室内空气品质控制重点实验室。迄今在澳大利亚昆士兰大学联培2年，访学1年。现任职于重庆大学土木工程学院建筑环境研究所，研究方向为室内空气品质，空气净化技术，室内碳捕集技术、多组分气体污染物检测平台的设计与建造。目前主持的项目包括国家自然科学基金青年项目1项，科技部国家级外专项目1项，中国博士后面上基金1项，企业横向项目1项，重庆大学基础研究与前沿交叉学科培育项目1项，科技部国际合作基地项目1项，参与企业横向项目2项；发表SCI论文二十余篇，其中以第一作者/通讯作者发表论文13篇。

室内空气品质
空气净化技术
新型净化材料
气体吸附/分子模拟

热质交换原理与设备
学术素养
建环专业创新实验与实践

中国环境科学学会室内环境与健康分会青年委员会  委员

科研项目：
国家自然科学基金青年项目，室内多组分气态污染物竞争/协同吸附净化机理研究，主持，在研
国家级外专项目，建筑室内二氧化碳多组分吸附捕集机理研究，主持，在研
中国博士后面上基金，建筑内二氧化碳直接空气捕集的多物理场测量与模拟研究，主持，在研
企业横向项目（美的集团），中国家庭厨房热环境调研与热舒适模型开发，主持，在研
国际合作基地项目，On the mechanisms of cooperative adsorption of polar air pollutants in indoor environment，主持，在研
重庆大学基础研究与前沿交叉学科培育项目，主持，结题

著作（Book chapter）
1. Lumeng Liu, Shiliang Johnathan Tan, D. Do, "Computer Simulation and Experimental Studies of Various Environmental Gases (NH3, CH2O, SO2, H2S, Benzene, water) on carbon materials" in Porous Materials: Theory and Its Application for Environmental Remediation. (Springer Nature, Cham, Switzerland, 2021).


期刊论文（第一/通讯作者）
1. H. Liu et al., Quantitative risk assessment for bacterial community in residential kitchens. Build. Environ. 228, 109841 (2023).
2. W. Zeng et al., New Insights into the Capture of Low-level Gaseous Pollutants in Indoor Environment by Carbonaceous Materials: Effects of Functional Groups, Pore Size, and Presence of Moist. Sep. Purif. Technol. 298, 121652 (2022).
3. W. Zeng et al., Explore the Benefits of Natural Air: New Insights from Field and Chamber Tests on Cognitive Performance. Atmosphere 13, 1006 (2022).
4. L. Liu, W. Zeng, S. Tan, M. Liu, D. D. Do, Microscopic insights into water adsorption in carbon nanopores – the role of acidic and basic functional groups and their configurations. PCCP 23, 18369-18377 (2021).
5. L. Liu, W. Zeng, S. Tan, M. Liu, D. D. Do, On the characterization of bimodal porous carbon via water adsorption: The role of pore connectivity and temperature. Carbon 179, 477-485 (2021).
6. D. Zhang, J. Liu, M. Liu, L. Liu, D. D. Do, On the capture of ultralow-level benzene in indoor environments: Experiments, modeling and molecular simulation. Sep. Purif. Technol. 251, 117306 (2020).
7. D. Zhang, J. Liu, L. Liu, On the capture of polar indoor air pollutants at sub-ppm level— A molecular simulation study. Build. Simul. 13, 989-997 (2020).
8. L. Liu et al., On the mechanism of water adsorption in carbon micropores – A molecular simulation study. Chem. Eng. J. 357, 358-366 (2019).
9. L. Liu et al., Formaldehyde adsorption in carbon nanopores – New insights from molecular simulation. Chem. Eng. J. 370, 866-874 (2019).
10. L. Liu, Y. Zeng, D. D. Do, D. Nicholson, J. Liu, Development of averaged solid–fluid potential energies for layers and solids of various geometries and dimensionality. Adsorption 24, 1-9 (2018).
11. L. Liu, J. Liu, J. Pei, Towards a better understanding of adsorption of indoor air pollutants in porous media—From mechanistic model to molecular simulation. Build. Simul. 11, 997-1010 (2018).
12. L. Liu, H. Zhang, D. D. Do, D. Nicholson, J. Liu, On the microscopic origin of the temperature evolution of isosteric heat for methane adsorption on graphite. PCCP 19, 27105-27115 (2017).
13. L. Liu et al., Water adsorption on carbon - A review. Adv. Colloid Interface Sci. 250, 64-78 (2017).

重庆市微课比赛二等奖
安徽省机械工业科学技术奖（三等），2022
重庆大学教学创新比赛一等奖

lumeng.liu@cqu.edu.cn