Senior Researcher, National Institute of Environmental Research, South Korea
Dr. Kwang-Joo Moon π°π· is a Senior Research Scientist in the Global Environment Research Division at the National Institute of Environmental Research (NIER), Korea. With deep expertise in real-time monitoring of air pollutants and greenhouse gases (GHGs), Dr. Moon has played a crucial role in shaping air quality research in Korea and beyond. His interdisciplinary work spans mobile monitoring via drones, aircraft, and vehicles, coupled with advanced statistical techniques for source apportionment. He actively contributes to cross-national projects that enhance understanding of particulate matter (PM) and GHG emissions for cleaner, healthier air. ππβοΈ
Profile
Orcid
Education π
Dr. Moon pursued both his undergraduate and doctoral studies at INHA University in Incheon, Korea. π He earned his B.A. in Environmental Engineering in 2001 and continued to obtain his Ph.D. in Environmental Engineering in 2014. His academic foundation reflects a strong commitment to atmospheric science, air quality management, and environmental monitoringβtopics that continue to guide his research and professional pursuits. π§ͺπ
Experience πΌ
Dr. Moonβs distinguished career began as a Research Assistant at NIER from 2001 to 2005. He then served as a Research Scientist at Korea’s Ministry of Environment from 2006 to 2008, gaining valuable policy-level experience. From 2009 to 2020, he rejoined NIER as a Research Scientist, focusing on national air quality initiatives. π«οΈ From 2017 to 2018, he took part in a strategic offshore assignment with the Korea-China Air Quality Joint Research Team at CRAES, China. Since 2021, he has served as Senior Research Scientist at NIER, contributing to pioneering work in mobile emission monitoring and pollutant tracking. πππ‘
Research Interest π
Dr. Moon’s research primarily focuses on real-time monitoring of air pollutants and greenhouse gases using sensor networks, mobile units, and statistical models. π His expertise includes source apportionment of PM and GHGs using Positive Matrix Factorization (PMF) and Hybrid Receptor Models. He is highly skilled in deploying unmanned aerial vehicles (UAVs), mobile laboratories, and airborne platforms for emission source tracking. His work integrates environmental engineering with advanced analytics and geo-informatics, targeting cleaner urban and industrial environments. ππ«οΈπ‘
Awards π
While formal individual awards are not listed, Dr. Moon has made impactful contributions to international air quality initiatives, such as the KORUS-AQ (KoreaβUnited States Air Quality) field study (2016), the Korea-China PM2.5 joint research (2017β2018), and EAREX 2005 under UNEP’s ABC project. π These programs demonstrate his leadership in multinational collaborations and highlight his influence on air quality research across East Asia. π§π
Publications π
Han, S., et al. (2024) β Modification of Hybrid Receptor Model for Atmospheric Fine Particles (PM2.5) in 2020 Daejeon, Korea, Using an ACERWT Model, Atmosphere, 15(4): 477
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Cited in works using hybrid models for PM2.5 source analysis. π
Chae, J., et al. (2023) β The Study on Emission Characteristics of Gas-phase Hazardous Air Pollutants Generated at the Large-scale Industrial Complexes, J. Kor. Soc. Atmos. Environ., 40(1): 27-47
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Cited in research on hazardous emissions in industrial zones. π
Moon, K. (2023) β Study on the Distribution of VOCs in the Ambient Air of Domestic Industrial Complexes using Mobile SIFT-MS, J. Kor. Soc. Urban Environ., 22(4): 207β227
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Referenced in studies applying mobile VOC sensing technology. π
Lee, C., et al. (2023) β A Study on the Concentrations Calibration for NO, NOβ, SOβ, CO and VOC Sensors Reflecting the Influence of Temperature and Relative Humidity, J. Kor. Soc. Urban Environ., 21(4): 259β266
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Cited in sensor calibration research for environmental monitoring. π‘οΈ
Lee, C., et al. (2021) β Performance Test of Gas Sensors Measuring Air Pollutants of NO, NOβ, SOβ, CO and VOC, J. Kor. Soc. Urban Environ., 21(1): 13β20
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Referenced in evaluations of low-cost air quality sensors. π¨
Yoo, H., et al. (2020) β Validation for SOC Estimation from OC and EC concentration in PM2.5 measured at Seoul, Particle and Aerosol Research, 16(1): 19β30
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Cited in studies quantifying secondary organic carbon in PM. π
Lim, S., et al. (2020) β Fossil-driven secondary inorganic PM2.5 enhancement in the North China Plain, Environmental Pollution, 266(2): 115163
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Cited in research on fossil fuel-related PM formation. π’οΈ
Park, J., et al. (2020) β Application of Chemical Ionization Mass Spectrometry in Airborne SOβ Observation on Hanseo Beechcraft 1900D, Asian J. Atmos. Environ., 14(4): 413β421
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Referenced for airborne chemical sensor applications. βοΈ
Moon, K.J., et al. (2008) β Source apportionment of fine carbonaceous particles by PMF at Gosan, Environment International, 34(5): 654β664
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Widely cited in East Asian PM source studies. π
Han, J.S., Moon, K.J., et al. (2006) β Identification of source regions of fine particles using hybrid receptor models, J. Geophys. Res.: Atmos., 111(D22)
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Cited in hybrid model development for long-range transport. π¬οΈ
Han, J.S., Moon, K.J., et al. (2006) β Size-resolved source apportionment of ambient particles by PMF at Gosan, Atmospheric Chemistry and Physics, 6(1): 211β223
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Foundational in PMF model applications across Asia. π
Conclusion
Based on his research achievements, publications, and experience, Kwang-Joo Moon is a suitable candidate for the Best Researcher Award. His contributions to environmental research, particularly in air quality and pollution monitoring, demonstrate his potential to make a significant impact in the field. With some further emphasis on interdisciplinary collaboration and publishing in top-tier journals, he is well-positioned to continue making meaningful contributions to research.