公開日期 | 標題 | 作者 | 來源出版物 | scopus | WOS | 全文 |
2019 | Seasonal variation of chemical characteristics of fine particulate matter at a high-elevation subtropical forest in East Asia | Lee, Celine S. L.; Chou, C. C.-K.; Cheung, H. C.; Tsai, C.-Y.; Huang, W.-R.; SHENG-HSIU HUANG ; Chen, M.-J.; Liao, H.-T.; CHANG-FU WU ; Tsao, T.-M.; MING-JER TSAI ; TA-CHEN SU | Environmental Pollution | 20 | 15 | |
2015 | Short-term exposure to fine and coarse particles and mortality: A multicity time-series study in East Asia | Lee H.; Honda Y.; Hashizume M.; Yue Leon Guo ; CHANG-FU WU ; Kan H.; Jung K.; Lim Y.-H.; Yi S.; Kim H. | Environmental Pollution | 101 | 93 | |
2022 | Simulating nitrate formation mechanisms during PM2.5 events in Taiwan and their implications for the controlling direction | Chuang, Ming-Tung; CHANG-FU WU ; Lin, Chuan-Yao; Lin, Wei-Che; Chou, Charles C.-K; Lee, Chung-Te; Lin, Tang-Huang; Fu, Joshua S.; Kong, Kong, Steven Soon-Kai | Atmospheric Environment | 10 | 10 | |
2015 | Source and risk apportionment of selected VOCs and PM2.5 species using partially constrained receptor models with multiple time resolution data | Liao H.-T.; Chou C.C.-K.; Chow J.C.; Watson J.G.; Hopke P.K.; CHANG-FU WU | Environmental Pollution | 72 | 65 | |
2016 | Source apportionment of mass concentration and inhalation risk with long-term ambient PCDD/Fs measurements in an urban area | Ho C.-C.; CHANG-CHUAN CHAN ; CHIA-PIN CHIO ; Lai Y.-C.; Chang-Chien G.-P.; Chow J.C.; Watson J.G.; Chen L.-W.A.; PAU-CHUNG CHEN ; CHANG-FU WU | Journal of Hazardous Materials | 14 | 13 | |
2014 | Source apportionment of particulate matter and selected volatile organic compounds with multiple time resolution data | Kuo C.-P.; Liao H.-T.; Chou C.C.-K.; CHANG-FU WU | Science of the Total Environment | 54 | 51 | |
2007 | Source apportionment of PM2.5 and selected hazardous air pollutants in Seattle | CHANG-FU WU ; Larson T.V.; Wu S.-y.; Williamson J.; Westberg H.H.; Liu L.-J.S. | Science of the Total Environment | 84 | 77 | |
2017 | Source apportionment of PM2.5 size distribution and composition data from multiple stationary sites using a mobile platform | Liao H.-T.; Chou C.C.-K.; SHENG-HSIU HUANG ; Lu C.-J.; CHIH-CHIEH CHEN ; Hopke P.K.; CHANG-FU WU | Atmospheric Research | 9 | 8 | |
2017 | Source apportionment of urban air pollutants using constrained receptor models with a priori profile information | Liao H.-T.; Yau Y.-C.; Huang C.-S.; Chen N.; Chow J.C.; Watson J.G.; SHIH-WEI TSAI ; Chou C.C.-K.; CHANG-FU WU | Environmental Pollution | 31 | 27 | |
2021 | Source apportionment of urban PM2.5 using positive matrix factorization with vertically distributed measurements of trace elements and nonpolar organic compounds | Liao H.T.; Lee C.L.; Tsai W.C.; Yu J.Z.; SHIH-WEI TSAI ; Chou C.C.K.; CHANG-FU WU | Atmospheric Pollution Research | 11 | 12 | |
2011 | Spatial-temporal and cancer risk assessment of selected hazardous air pollutants in Seattle | CHANG-FU WU ; Liu L.-J.S.; Cullen A.; Westberg H.; Williamson J. | Environment International | 24 | 18 | |
2012 | Spatiotemporal modeling with temporal-invariant variogram subgroups to estimate fine particulate matter PM 2.5 concentrations | Chen C.-C.; CHANG-FU WU ; Yu H.-L.; CHANG-CHUAN CHAN ; TSUN-JEN CHENG | Atmospheric Environment | 30 | 26 | |
2016 | Temperature variability and mortality: A multi-country study | Guo Y.; Gasparrini A.; Armstrong B.G.; Tawatsupa B.; Tobias A.; Lavigne E.; Zanotti Stagliorio Coelho M.S.; Pan X.; Kim H.; Hashizume M.; Honda Y.; Yue Leon Guo ; CHANG-FU WU ; Zanobetti A.; Schwartz J.D.; Bell M.L.; Overcenco A.; Punnasiri K.; Li S.; Tian L.; Saldiva P.; Williams G.; Tong S. | Environmental Health Perspectives | 197 | 178 | |
2018 | Temperature-related mortality impacts under and beyond Paris Agreement climate change scenarios | Vicedo-Cabrera A.M.; Guo Y.; Sera F.; Huber V.; Schleussner C.-F.; Mitchell D.; Tong S.; Coelho M.S.Z.S.; Saldiva P.H.N.; Lavigne E.; Correa P.M.; Ortega N.V.; Kan H.; Osorio S.; Kyselý J.; Urban A.; Jaakkola J.J.K.; Ryti N.R.I.; Pascal M.; Goodman P.G.; Zeka A.; Michelozzi P.; Scortichini M.; Hashizume M.; Honda Y.; Hurtado-Diaz M.; Cruz J.; Seposo X.; Kim H.; Tobias A.; Íñiguez C.; Forsberg B.; Åström D.O.; Ragettli M.S.; Röösli M.; Yue Leon Guo ; CHANG-FU WU ; Zanobetti A.; Schwartz J.; Bell M.L.; Dang T.N.; Do Van D.; Heaviside C.; Vardoulakis S.; Hajat S.; Haines A.; Armstrong B.; Ebi K.L.; Gasparrini A. | Climatic Change | 94 | 84 | |
2015 | Three-dimensional reconstruction reduction and design of digital plates for proximal tibia fracture | Chen X.-H.; Wu X.-W.; Lin H.-B.; CHANG-FU WU ; Zheng F.; Guo Q.-Q.; Zhang G.-D. | Chinese Journal of Tissue Engineering Research | 1 | 0 | |
2020 | Trajectory-Assisted Source Apportionment of Winter-Time Aerosol Using Semi-continuous Measurements | Liao H.-T.; CHANG-FU WU | Archives of Environmental Contamination and Toxicology | 6 | 5 | |
2022 | Urban Air Pollution and Subclinical Atherosclerosis in Adolescents and Young Adults | Chen, Szu-Ying; Hwang, Jing-Shiang; CHANG-CHUAN CHAN ; CHANG-FU WU ; Charlene Wu ; TA-CHEN SU | The Journal of Adolescent Health | 6 | 5 | |
2022 | Urban Fine Particulate Matter and Elements Associated with Subclinical Atherosclerosis in Adolescents and Young Adults | Chen, Szu-Ying; CHANG-FU WU ; Wu, Charlene ; CHANG-CHUAN CHAN ; Hwang, Jing-Shiang; TA-CHEN SU | Environmental Science & Technology | 7 | 7 | |
2022 | Use of an Effective Variance Chemical Mass Balance Model for Source Apportionment of Metal Elements in a Polluted River | Hsieh, Pei-Yuan; Ho, Chi-Chang; GEN-SHUH WANG ; Hsu, Yuan-Cheng; Wang, Di-Wen; Shang, Yu-Man; CHANG-FU WU | Environmental Processes | 0 | 0 | |
2012 | Using the vertical radial plume mapping technique for estimating the emission rate of benzene in a tank farm | Wu T.-G.; Chang S.-Y.; CHANG-FU WU ; Hashmonay R.; Chao C.-P.; Hsu C.-P. | Proceedings of the Air and Waste Management Association's Annual Conference and Exhibition, AWMA | 0 | | |