| Poster No | Title/Presenter |
| 1 | Biomass Burning Influenced Actinic Flux from Airborne Measurements and Aerosol-Constrained Models
Samuel Hall |
| 2 | Evaluation of Formaldehyde Observations and Modeling Results in Central and Southern Taiwan during the KPEx Field Study Pei-Yu Chien |
| 3 | Temporal Variation of NO2 and HCHO in Bangkok (Thailand) and Dhaka (Bangladesh) from Pandora Measurements
Minjee Kim |
| 4 | Evolution of Lee-side Vortices with Pollutant Transport during KPEx in Taiwan Min-Chuan Hsiao |
| 5 | Air Quality Simulation over Thailand: Impact of Biomass Burning During the ASIA-AQ Campaign
Hyerim Kim |
| 6 | Aerosol PFAS Characteristics and Potential Sources Around Southern Taiwan Yu-Lun Hsieh |
| 7 | The Effect of Biomass Burning on Air Quality in Thailand
Hye Jung Shin |
| 8 | Comparative Analysis of PM2.5, O3, and NO2 in Southern Taiwan: Evaluating G-III and Satellite, DC-8 and UAV, and Low-Cost Sensors during the Asia-AQ/KPEx
Jui-Hsin Hsu |
| 9 | Ground-based Source Sampling of VOCs in Seoul and Bangkok during ASIA-AQ
Isobel Simpson |
| 10 | Spatiotemporal Occurrence and Characteristics of Microplastics during 2024 Kao-Ping Experiment
Thi Hieu Le |
| 11 | Investigating Air Pollution Sources in Southeast Asia using Airborne Observations of Ethane from Aerodyne’s Tunable Infrared Laser Direct Absorption Spectrometer during ASIA-AQ
Victoria Wright |
| 12 | Overview of the Database for 2024 Springtime Kao-Ping Experiment (KPEx) in Southern Taiwan Chia-Ching Lin |
| 13 | Aerosol Halogen Measurements during ASIA-AQ within a Global Context Jose L. Jimenez |
| 14 | Integration of Modeling, Photochemical Assessment Monitoring Stations (PAMS) and NOz Measurements to Evaluate the Ozone Production Efficiency (OPE) in a Downwind Rural Site in KPEx Pei-Chen Ma |
| 15 | In-situ Airborne Instrument: Meteorological Measurement System (MMS) Ju-Mee Ryoo |
| 16 | Three-Dimensional Analysis of Meteorological Parameters and PM2.5 Distribution Using a Miniature Radiosonde System during the KPEx Chiao-Ling Pan |
| 17 | MMulti-model Comparison of Ozone and PM2.5 in Thailand, Taiwan, and the Philippines Katherine Travis |
| 18 | Insights from the 2024 Kao-Ping Experiment (KPEx): Variations in the Chemical Properties of Ambient Aerosols in Southern Taiwan Weng Wei Cheng |
| 19 | The Broad Capabilities of the US Navy’s COAMPS Model Nicholas Gapp |
| 20 | Development and Validation of a UAV-Based Measurement System for Atmospheric and Air Quality Parameters in the KPEx Li-Jin Ke |
| 21 | Investigation of the Spatial and Temporal Distribution of Ammonia Over Asian Countries using Integrated Airborne and Satellite Data During ASIA-AQ Campaign Chisung Yun |
| 22 | Tropospheric Ozone Variability over Southeast Asia during ASIA-AQ 2024 Steven Kong |
| 23 | Characterization of Atmospheric Black Carbon during the ASIA-AQ Campaign Minwoo Baek |
| 24 | Evaluation of CMAQ model (v5.3.3) over Taiwan region during the 2024 Kao-Ping (KPEx) Experiment Steven Soon-Kai Kong |
| 25 | Analyzing Air Quality Patterns in Thailand and the Philippines using Satellite Data Seonggyun Na |
| 26 | Aerosol Size Distribution and Chemical Composition from ASIA-AQ Taiwan KPEx Southern Taiwan Super-Site Chih-Yu Chan |
| 27 | Observations of PAN in Taiwan and Thailand and an Assessment of PBzN and Aromatic Chemistry Linda Arterburn |
| 28 | Airborne Observations of Refractory Black Carbon: Variability in Mass Concentration, Size Distribution, and Mixing State Across the Philippines Shalini Mishra |
| 29 | Boundary Layer Determination Along the DC-8 Flight Track During the ASIA-AQ Campaign Jason Miech |
| 30 | The spatial inhomogeneity of the PBL observed by Vehicle-based Doppler Wind Lidar during Asia-AQ-Taiwan Chuan-Yan Lin |
| 31 | Intercomparison of VOC data measured by PTR-MS, TOGA, and WAS during ASIA-AQ 2024 Wojciech Wojnowski |
| 32 | Estimation of Emissions Rates from Coal-Fired Power Plant using airborne measurement during ASIA-AQ Campaign Hyeongseok Choi |
| 33 | Surface Meteorology and Boundary-Layer Structure During the ASIA-AQ Campaign Period Minsoo Kang |
| 34 | HONO Measurement during the ASIA-AQ Campaign in South Korea and its Implication in PM2.5 nitrate as an In-Situ Formation Indicator Junsu Gil |
| 35 | Calibration and flight performance of the open-path ammonia laser spectrometer in ASIA-AQ Ryan Boyd |
| 36 | Shifting Flowering Periods in A Warming Climate Observed from Long-Term Lidar Observations in Seoul Woojin Hwang |
| 37 | Leveraging Formaldehyde Observations to Assess Surface Air Quality Prajjwal Rawat |
| 38 | Multi-model Intercomparisons of Air Quality Simulations for the ASIA-AQ Campaign Jaein Jeong |
| 39 | Investigations of Oxygenated Aromatic Compounds in East and Southeast Asia: Observations from ASIA-AQ Katherine Ball |
| 40 | Identification of Major Emission Sources of CO2 and CH4 in Seoul, South Korea during the ASIA-AQ Campaign Hyeongmo Kang |
| 41 | GEMS Ozone Measurements Jaehwan Kim |
| 42 | Evaluation of Spatiotemporal Variabilities in GEMS NO2 Retrievals using the Strategically Networked Ground-based Instruments during ASIA-AQ Campaign in South Korea
Serin Kim |
| 43 | Comparison of the Vertical Profile Characteristics of Ozone on the Korean Peninsula during ASIA-AQ Campaign Period
Sang Jun Kim |
| 44 | Regional Difference in Columnar Aerosol Chemical Composition using AERONET in South Korea during the ASIA-AQ Campaign
Minho Kim |
| 45 | Evaluation of Aerosol Data Assimilation and Forecasts in the NASA GEOS Model during the ASIA-AQ Campaign in Korea
Seunghee Lee |
| 46 | Characterization of VOCs Emissions and Spatial Distribution over Urban and West Coast Areas of South Korea: Airborne Observations from the 2024 ASIA-AQ Campaign
Jimin Lee |
| 47 | Comparison of Tropospheric NO2 Vertical Column Density using Different Retrieval Algorithms from Pandora MAX-DOAS mode Observations
Giyeol Lee |
| 48 | Wintertime Characteristics of Particulate Matter and High-Concentration Events at Anmyeondo: Implications for Regional Air Quality Assessment
Jihye Moon |
| 49 | Characteristics of Atmospheric Volatile Organic Compounds from Background Coastal Area, Anmyeondo, Korea
Hu Qihua |
| 50 | Diurnal and Seasonal Variations of Aerosol Size Distribution and New Particle Formation (NPF) at Western Coast of South Korea: 19 Years of Long-Term Observation at Anmyeon GAW Station
Eunho Park |
| 51 | Seasonal Characteristics and Health Risk Assessment of Anthropogenic VOCs in South Korea
Avinash Shastri |
| 52 | Airborne and Ground Monitoring in SIJAQ/ASIA-AQ
Suna Shin |
| 53 | Role of Aerosol Liquid Water Content and pH in Inorganic Aerosols in PM2.5 during ASIA-AQ
Seora Woo |
| 54 | Analysis of Long-Range Transport During the ASIA-AQ Campaign
Wook Kang |
| 55 | Nocturnal Chemistry of NO₃ and N₂O₅ during the 2024 ASIA-AQ Campaign: Investigating Uptake Coefficients and Nitrate Contribution in Seoul
Jiseon Lee |
| 56 | Analysis of Meteorological Effects on Air Quality During the ASIA-AQ Campaign
Yesol Cha |
| 57 | Shifts in Regional Emission Contributions During Elevated PM2.5 Episodes in South Korea: Insights from the 2024 ASIA-AQ Study
Seongeun Jeong |
| 58 | Analyzing the Influence of NO2 on Aerosol through Pandora Measurements in Major Asian Cities
Seongyoung Kim |
| 59 | Comparison of Aerosol Vertical Information between GEMS and HSRL
Sang Seo Park |
| 60 | Chemical Characteristics of gaseous pollutants in West Sea of Korea using 1900D: during ASIA-AQ
Jinsoo Choi |
| 61 | Chemical Characteristics of Fine Particulate Matter in the Seoul Metropolitan Area and the West Coast Region: Insights from 1900D Airborne Observations
Joon-Young Ahn |
| 62 | Aerosol Properties over the Yellow Sea Region – South Korea Francesca Gallo |