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个人简介

清华大学国强长聘副教授,博导。1997年考入清华大学建筑技术科学系,于2001年和2004年分别获得学士和硕士学位;2009年毕业于美国弗吉尼亚理工大学环境工程专业,获得博士学位。之后于2009年至2018年在美国德州大学奥斯汀分校执教(专业排名全美前五)担任助理教授、副教授(终身教职)。 长期从事室内空气环境研究,从环境工程、工程热物理、及其与公共卫生学科交叉角度,探讨室内污染源的散发和传播机理,污染物暴露与健康和疾病的相关性,以及污染物监测和控制技术原理。当选国际室内空气质量与气候学会候任主席(president-elect),是该学会成立40年来的首位华裔主席。担任国际室内空气质量与气候学会化学污染物科学技术委员会主席,国际室内环境权威期刊Indoor Air与Journal of Exposure Science & Environmental Epidemiology编委。曾主持和参与美国国家自然科学基金、住建部、环保署等多个关于室内化学污染物的重点项目。在室内环境污染领域已发表SCI论文40余篇,其中10余篇发表在环境领域国际顶级期刊Environmental Science & Technology上。目前论文SCI总引用数1200余次,单篇最高引用近200次,2篇论文入选期刊优秀论文,5次获得国际学术会议最佳论文奖,3次在国际学术会议做大会受邀报告。研究成果被美国化学学会、美国国家自然科学基金特别报道,并受到了每日邮报、福克斯新闻等国际知名媒体的采访和报道。获得国际室内空气质量与气候学会 (ISIAQ) 雅阁鲁世界杰出青年科学家奖 (Yaglou award)、美国国家自然科学基金杰出青年教授奖 (CAREER Award)、美国制冷空调工程师学会 (ASHRAE) 青年科学家成就奖等多个奖项。求学期间获得清华大学优秀硕士毕业生称号、弗吉尼亚理工大学工程院院长奖(连续三年)、国际空气与废物管理学会优秀博士生奖、美国绿色环境研究所创新奖,中国教育部国家优秀留学生奖(由时任国务院副总理刘延东亲自颁奖)等一系列奖励。 教育信息 2004-2009, 美国弗吉尼亚理工大学(Virginia Tech), 土木环境工程系, 博士 2001-2004, 清华大学, 建筑技术科学系, 硕士 1997-2001, 清华大学, 建筑技术科学系, 学士 专业履历 2019至今, 清华大学, 建筑技术科学系, 国强长聘副教授 2016至2018, 德州大学奥斯汀分校 (University of Texas at Austin), 土木工程系, 副教授 (终身教席, tenured) 2016至2018, 德州大学奥斯汀分校 (University of Texas at Austin), 土木工程系, 助理教授 荣誉和获奖 国际室内空气质量与气候科学院 (ISIAQ) Fellow, 2020 美国弗吉尼亚理工大学杰出青年校友奖, 2016 美国暖通制冷空调工程师学会 (ASHRAE), 杰出青年科学家奖 (New Investigator Award), 2014 美国国家自然科学基金 (NSF), 杰出青年教授奖 (CAREER Award), 2012 国际室内空气质量与气候学会 (ISIAQ), 雅阁鲁奖 (Yaglou Award), 2011 教育部, 国家优秀留学生奖, 2008 国际空气与废物管理学会(AWMA),优秀科研奖 (Excellent Research Award),2007 专业组织及活动 国际室内空气质量与气候学会(ISIAQ)侯任主席(president-elect),是该学会成立40年来的首位华裔主席, 2020 ISIAQ STC11化学污染物科学技术委员会主席, 2014-今 美国暖通制冷空调工程师学会 (ASHRAE),国际暴露科学学会(ISES),国际空气与废物管理学会(AWMA)技术委员会委员,2009-今 国际室内环境权威期刊Indoor Air与Journal of Exposure Science & Environmental Epidemiology编委,2018-今

研究领域

室内有机污染物散发传输机理 新型有机污染物/污染源 人体暴露与健康

近期论文

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Ding, L., Wang, L., Nian, L., Tang, M., Yuan, R., Shi, A., Shi, M., Han, Y., Liu, M., Zhang Y., Xu, Y.* (2022). Non-targeted screening of volatile organic compounds in a museum in China Using GC-Orbitrap mass spectrometry. Science of The Total Environment, 835:155277. Wu, Y., Song, Z., Little, J.C., Zhong, M., Li, H., Xu, Y.* (2021). An integrated exposure and pharmacokinetic modeling framework for assessing population-scale risks of phthalates and their substitutes. Environment International, 156:106748. Bi, C., Wang, X., Li, H, Li, X., Xu, Y.* (2021). Direct Transfer of Phthalate and Alternative Plasticizers from Indoor Source Products to Dust: Laboratory Measurements and Predictive Modeling. Environmental Science & Technology, 55 (1): 341-345. Li, H., Bi, C., Li, X., Xu, Y.* (2020). A Needle Trap Device Method for Sampling and Analysis of Semivolatile Organic Compounds in Air. Chemosphere, 250: 126284. Wu, T., Fu, M., Valkonen, M., T?ubel, M., Xu, Y., Boor, B.* (2020). Particle Resuspension Dynamics in the Infant Near-Floor Microenvironment. Environmental Science & Technology, 55 (3): 1864-1875. Eichler,C., Cohen Hubal, E., Xu, Y., Cao, J., Bi, C., Weschler, C., Salthammer, T., Morrison, G., Koivisto, A., Zhang, Y., Mandin, C., Wei, W., Blondeau, P., Poppendieck, D., Liu, X., Delmaar, C., Jolliet, O., Shin, H., Diamond, M., Shiraiwa, M., Zuend, A., Hopke, P., von Goetz, N., Kulmala, M., and Little, J.C.* (2021). Assessing human exposure to chemicals in materials, products, and articles: A modular mechanistic framework. Environmental Science & Technology, , 55 (1): 25-43. Velazquez,S., Bi, C., Kline, J., Nunez, S., Corsi, R., Xu, Y., Ishaq, S.*(2019). Accumulation of di-2-ethylhexyl phthalate from polyvinyl chloride flooring into settled house dust and the effect on the bacterial community. PeerJ, 7: e8147. Givehchi, R., Maestre, J.P., Bi, C., Wylie, D., Xu Y., Kinney, K., Siegel, J.* (2019). Quantitative filter forensics with residential HVAC filters to assess indoor concentrations. Indoor Air, 29(3): 390-402. Liang, Y., Bi, C., Wang, X., Xu, Y.* (2019). A general mechanistic model for predicting the fate and transport of phthalates in indoor environments. Indoor Air, 29(1): 55-69. Bi, C., Maestre, J.P., Li, H., Zhang, G., Givehchi, R., Mahdavi, A., Kinney, K.A., Siegel, J., Horner, J.D., Xu, Y.* (2018). Phthalates and organophosphates in settled dust and HVAC filter dust of U.S. low-income homes: Association with the season, building characteristics, and childhood asthma. Environment International, 121: 916-930. Boor, B.E., Spilak, M.P., Laverge, J., Novoselac, A., Xu, Y.* (2017). Human exposure to indoor air pollutants in sleep microenvironments: A literature review. Building and Environment, 125: 528-555. Bi, C., Liang, Y., Xu, Y.* (2015). Fate and transport of phthalates in indoor environments and the influence of temperature: A case study in a test house. Environmental Science & Technology, 49 (16): 9674-9681. Wang, X., Bi, C., Xu, Y.* (2015). Modeling and analysis of sampling artifacts in measurements of gas-particle partitioning of semivolatile organic contaminants using filter-sorbent samplers. Atmospheric Environment, 117: 99-109. Boor, B. E., Liang, Y., Crain, N., J?rnstr?m, H., Novoselac, A., Xu, Y.* (2015). Identification of phthalate and alternative plasticizers, flame retardants, and unreacted isocyanates in infant crib mattress covers and foam. Environmental Science & Technology Letters, 2 (4): 89-94. Liang, Y., Xu, Y.* (2015). The Influences of surface sorption and air flow rate on emission of phthalates from vinyl flooring: Measurement and modeling. Atmospheric Environment, 103: 147-155. Xu, Y.*, Liang, Y., Urquidi, J., Siegel, J. (2015). Semi-volatile organic compounds in heating, ventilation, and air-conditioning filter dust in retail stores. Indoor Air, 25 (1): 79-92. Liang, Y., Xu, Y.* (2014). Emission of phthalates and phthalate alternatives from vinyl flooring and crib mattress covers: The influence of temperature. Environmental Science & Technology, 48 (24): 14228-14237. Xu, Y.*, Liang, Y., Urquidi, J., Siegel, J. (2014). Phthalates and polybrominated diphenyl ethers in retail stores. Atmospheric Environment, 87: 53-64. Liang, Y., Xu, Y.* (2014). Improved method for measuring and characterizing phthalate emissions from building materials and its application to exposure assessment. Environmental Science & Technology, 48 (8): 4475–4484. Boor, B. E., J?rnstr?m, H., Novoselac, A., Xu, Y.* (2014). Infant exposure to emissions of volatile organic compounds from crib mattresses. Environmental Science & Technology, 48 (6): 3541–3549. Xu, Y., Liu, Z.; Park, J., Clausen, P. A., Benning, J., Little. J. C.* (2012). Measuring and predicting the emission rate of phthalate plasticizer from vinyl flooring in a specially-designed chamber. Environmental Science & Technology, 46 (22): 12534–12541. Xu, Y.*, Zhang, J., (2011). Understanding SVOCs. ASHRAE Journal, 53 (12): 121-125. Xu, Y., Cohen-Hubal, E. A., Little, J. C.* (2010). Predicting residential exposure to phthalate plasticizer emitted from vinyl flooring – sensitivity, uncertainty, and implications for biomonitoring. Environmental Health Perspectives, 118 (2): 253-258. Fristachi, A., Xu, Y., Rice, G., Rice, G., Impellitteri, C., Carlson-Lynch, H., Little, J. C.* (2009). Using probabilistic modeling to evaluate human exposure to organotin in drinking water transported by polyvinyl chloride pipe. Risk Analysis, 29 (11): 1615-1628. Xu, Y., Cohen-Hubal, E. A., Clausen, P. A., Little, J. C.* (2009). Predicting residential exposure to phthalate plasticizer emitted from vinyl flooring – a mechanistic analysis. Environmental Science & Technology, 43 (7): 2374-2380. Morrison, G. C.*, Little, J. C., Xu, Y., Rao, M., Enke, D. (2007). Gas-phase exposure history derived from material-phase concentration profiles. Atmospheric Environment, 41 (15): 3276–3286. Xu, Y., Little, J. C.* (2006). Predicting emissions of SVOCs from polymeric materials and their interaction with airborne particles. Environmental Science & Technology, 40 (2): 456-461. Xu, Y., Zhang, Y.* (2004). A general model for analyzing single surface VOC emission characteristics from building materials and its application. Atmospheric Environment, 38 (1): 113-119. Xu, Y., Zhang, Y.* (2003). An improved mass transfer based model for analyzing VOC emissions from building materials. Atmospheric Environment, 37 (18): 2497-2505.

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