20 citations as recorded by crossref.

1. Characteristics, Sources of Atmospheric VOCs and Their Impacts on O3 and Secondary Organic Aerosol Formation in Ganzhou, Southern China X. Liu et al.
2. Effects of High Temperatures on the Consumed VOCs Derived from Multiple Urban Emission Sources L. Diao et al.
3. Novel quantitative method of reactive losses of ambient VOCs coupling chemical transport model simulation with receptor measurement Y. Gu et al.
4. Machine learning-driven PMF modeling for accurate and objective source identification of VOCs Q. Wang et al.
5. Natural sources exert substantially greater influence on atmospheric ozone formation during high-ozone episodes in a medium-sized industrial city T. Yang et al.
6. BALANCING AFFORDABILITY AND SUSTAINABILITY: UNVEILING HOMEBUYERS’ PREFERENCES FOR GREEN AFFORDABLE HOUSING CRITERIA AND FEATURES M. Zulkepli & M. Abdul Rahman
7. Underestimation of industrial contributions to VOC fluctuation in the Hangzhou Bay: Insights from simultaneous measurements and ML-SHAP analysis K. Hu et al.
8. Volatile organic compounds in a typical petrochemical production area in Shanghai, China: Source profiles, human health and environmental impacts Z. Ding et al.
9. Multi-objective machine learning for health-oriented O3 and PM2.5 control: Integrating VOC photochemical consumption and source apportionment H. Jia et al.
10. Advances in Emissions, Modeling, and Source Apportionment X. Fu et al.
11. Source apportionment of VOCs based on photochemical loss in Lianyungang: implications to reactivity, O3 and SOA formation Y. Li et al.
12. Characteristics of the exposures to source-specific ambient VOCs in Lagos, Nigeria A. Odu-Onikosi et al.
13. Rapid construction of source profiles for atmospheric VOCs: methodology and case application Z. Liu et al.
14. Indoor Volatile Toxic Organics from Incomplete Burning of Solid Fuels in China T. Huang et al.
15. Spatiotemporal variability, atmospheric chemistry implications and health risk assessment of ambient volatile organic compounds in Central India A. Tamrakar et al.
16. Characterization and source analysis of VOCs and PM2.5 species in Lanzhou, northwestern China in 2017–2021: Implications for pollution control strategies X. Zhou et al.
17. Shifts in sources of non-methane hydrocarbons in the most ozone-polluted region of the Pearl River Delta, China (2020–2023) L. Luan et al.
18. Spatially varying source contributions to ambient consumed VOCs driven by sea-land breeze recirculation in a coastal city Y. Han et al.
19. Heterogeneous Risks of Chemical Components and Sources in Size-Resolved Particulate Matter on Ischemic and Hemorrhagic Stroke K. Hua et al.
20. The Impact of Photochemical Loss on the Source Apportionment of Ambient Volatile Organic Compounds (VOCs) and Their Ozone Formation Potential in the Fenwei Plain, Northern China Y. Tao et al.