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Basic Information
Associate Professor SHI Shanshan
Email: [email protected]
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Brief Introduction
lBachelor of Department of Thermal Energy and Power Engineering at Central South University
lPh.D. of Department of Building Science at Tsinghua University
lVisiting scholar at the University of California, Los Angeles (UCLA)
lVisiting scholar at Duke University
lAssociate professor of School of Architecture and Urban Planning of Nanjing University.
Dr. Shi’s primary research interest focuses on indoor air quality, with a particular emphasis on the emission, transmission, and control of particulate matter and semi-volatile organic compounds, as well as their associated environmental health risks. Dr Shi currently serves as a Subject Editor for the international journal Building Simulation and as a Youth Editorial Board Member of The Innovation. She is the Secretary of the Youth Committee of the Indoor Environment and Health Branch of the Chinese Society for Environmental Sciences, a member of the Climate Change and Health Committee of the Chinese Society of Environmental Mutagen, a member of the Building Simulation Professional Committee of the Chinese Society for Simulation, and the Deputy Director of the Air Purification and Health Safety Environment Professional Committee of the Jiangsu Refrigeration Society. Dr. Shi has received multiple academic honors, including the ASHRAE Grant-in-Aid, the Cell Press China Best Paper Award, and the He Xingzhou Young Scientist Award from the Indoor Environment and Health Branch of the Chinese Society for Environmental Sciences. Dr. Shi has also been selected as part of Jiangsu Province's "Double Innovation Talent" program and the sixteenth batch of the "Six Talent Peaks" high-level talent development plan in Jiangsu Province.
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Courses
l《Science in Built Environment》
l《Theory and Practice of Healthy Cities》
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Research and Projects
lNatural Science Foundation of China, general project, 2025-2028, PI
lResearch Fund Program of Guangdong Provincial Key Laboratory of Environmental Pollution Control and Remediation Technology, 2024-2025, PI
lNatural Science Foundation of China, international cooperation project, 2023-2026, Major participant
lSpecial fund of Beijing Key Laboratory of Indoor Air Quality Evaluation and Control, 2020-2021, PI
lNatural Science Foundation of China, youth project, 2018-2020, PI
lJiangsu Natural Science Foundation, youth, 2018-2020, PI
lChina Postdoctoral Science Foundation general support project, 2018-2019, PI
lJiangsu Province post doctoral research class a funded, 2018-2019, PI
lThe key special project of “Green Building and Building Industrialization” of the Ministry of Science and Technology, 2016-2019, Major participant
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Key Publications
lPeng, Y., Wang, D., Kong, L., Wang, Y., Liu, Z. and Shi, S.* (2025). Air infiltration rate distributions of urban residences in China. Building and Environment, 278, 112976.
lYang, J., Lin, Z., & Shi, S.* (2024). Household air pollution and attributable burden of disease in rural China: A literature review and a modelling study. Journal of Hazardous Materials, 134159.
lZhang, X., Liang, Y.*, Shi, S.*, & Shen, G. (2024). A study of the impact of entrance space on indoor air quality in vernacular dwellings in desert areas during sandstorms. Built Heritage, 8(1), 34.
lDeng, N. #, Zheng, X. #, Shi, S.* (2023). Assessment of health risks of PAHs from rural cooking emissions: Neighborhood diffusion and the impact of village settlement characteristics. Building and Environment, 244, 110801.
lShi, S.*, Yang, J., & Liang, Y. (2023). Indoor distribution and personal exposure of cooking-generated PM2. 5 in rural residences of China: A multizone model study. Building Simulation 1-17.
lZhao, B.*, Shi, S.*, Ji, J. S.* (2022). The WHO Air Quality Guidelines 2021 promote great challenge for indoor air. Science of the Total Environment, 827, 154376.
lShi, S.*, Zhang, J. J., Gong, J., & Zhao, B.* (2022). Benefits from disease-burden reduction for type 2 diabetes and obesity through comprehensive regulatory restrictions on phthalate use in China. One Earth, 5(4), 380-391.
lShi, S.*, Li, H., Ding, X., & Gao, X. (2020). Effects of household features on residential window opening behaviors: A multilevel logistic regression study. Building and environment, 170, 106610.
lShi, S., Zhao, B., & Zhang, J. J. (2018). Effect of residential air cleaning interventions on risk of cancer associated with indoor semi-volatile organic compounds: a comprehensive simulation study. The Lancet Planetary Health, 2(12), 532-539.
lShi, S.#, Cao, J.#, Zhang, Y.*, & Zhao, B.* (2018). Emissions of Phthalates from Indoor Flat Materials in Chinese Residences. Environmental science & technology, 52(22), 13166-13173.
lShi, S.* (2018). Contributions of indoor and outdoor sources to airborne polycyclic aromatic hydrocarbons indoors. Building and Environment, 131, 154-162.
lShi, S., Bian. Y., Zhang. L., Chen, C.* (2017). A method for assessing the performance of nanofiber films coated on window screens in reducing residential exposures to PM 2.5 of outdoor origin in Beijing. Indoor air 27, 6: 1190-1200.
lShi, S., Chen, C., Zhao, B.* (2017). Modifications of exposure to ambient particulate matter: Tackling bias in using ambient concentration as surrogate with particle infiltration factor and ambient exposure factor. Environmental Pollution, 220, 337-347.
lShi, S., Zhao, B*. (2016). Occupants’ interactions with windows in 8 residential apartments in Beijing and Nanjing, China. Building Simulation, 9, 221-231.
lShi, S., Zhu, S., Lee, E. S., Zhao, B., Zhu, Y.* (2016). Performance of wearable ionization air cleaners: Ozone emission and particle removal. Aerosol Science and Technology, 50(3), 211-221.
lShi, S., Chen, C., Zhao, B.* (2015). Air infiltration rate distributions of residences in Beijing. Building and Environment, 92, 528-537.
lShi, S., Zhao, B.* (2015). Estimating indoor semi-volatile organic compounds (SVOCs) associated with settled dust by an integrated kinetic model accounting for aerosol dynamics. Atmospheric Environment, 107, 52-61.
lShi, S., Zhao, B.* (2014). Modeled exposure assessment via inhalation and dermal pathways to airborne semivolatile organic compounds (SVOCs) in residences. Environmental science & technology, 48(10), 5691-5699.
lShi, S., Li, Y., Zhao, B.* (2014). Deposition velocity of fine and ultrafine particles onto manikin surfaces in indoor environment of different facial air speeds. Building and environment, 81, 388-395.
lShi, S., Zhao, B.* (2013). Deposition of indoor airborne particles onto human body surfaces: a modeling analysis and manikin-based experimental study. Aerosol Science and Technology, 47(12), 1363-1373.
lShi, S., Zhao, B*. (2012). Comparison of the predicted concentration of outdoor originated indoor polycyclic aromatic hydrocarbons between a kinetic partition model and a linear instantaneous model for gas–particle partition. Atmospheric Environment, 59, 93-101.
