Sihye Lee | Atmospheric Science | Best Researcher Award

Published on by Academic Achievements

Dr. Sihye Lee | Atmospheric Science | Best Researcher Award

Dr. Sihye Lee | Atmospheric Science | Senior Scientist at Korea Institute of Atmospheric Prediction Systems | South Korea

Sihye Lee, Ph.D., is a distinguished atmospheric scientist whose career spans advanced research in aerosol chemistry, optical properties, and data assimilation methodologies for weather and climate prediction. Throughout her academic journey, Sihye Lee, Ph.D., demonstrated exceptional expertise beginning with her B.S. and M.S. degrees in Environmental Science and Engineering from Ewha Womans University, followed by her Ph.D. in Earth and Environmental Sciences from Seoul National University, where she investigated the chemical and optical characteristics of black-carbon–containing aerosols and their hygroscopic behavior. Professionally, Sihye Lee, Ph.D., has built a solid career at the Korea Institute of Atmospheric Prediction Systems (KIAPS), serving as Research Scientist and later Senior Research Scientist in the Data Assimilation Group, contributing to the development of assimilation techniques crucial for improving atmospheric prediction accuracy. Her international scientific exposure includes serving as a Visiting Scientist at the European Centre for Medium-Range Weather Forecasts (ECMWF), where she worked within the Satellite Section on advanced assimilation frameworks. Sihye Lee, Ph.D., also gained applied environmental experience in atmospheric modeling during her tenure at Sambon Engineering and earlier research roles at the Korea Institute of Science and Technology (KIST). Her research interests span aerosol–cloud interactions, chemical composition of atmospheric particles, accumulation-mode aerosol properties, CCN activation processes, and seasonal variability in air quality. She is skilled in data assimilation systems, aerosol optical analysis, atmospheric chemistry modeling, and environmental data interpretation. The contributions of Sihye Lee, Ph.D., have earned her significant recognition, including an Administrator Citation from the Korea Meteorological Administration and a Minister Citation from the Ministry of Environment. In conclusion, Sihye Lee, Ph.D., continues to advance atmospheric prediction science through her deep technical expertise, impactful research output, and long-standing commitment to understanding aerosol behavior and improving environmental forecasting systems.

Profile: ORCID

Featured Publications 

  1. Lee, S., Ghim, Y. S., Kim, S.–W., & Yoon, S.–C. (2010). Effect of biomass burning and regional background aerosols on CCN activity derived from airborne in-situ measurements. Atmospheric Environment, 44, 5227–5236. 

  2. Lee, S., Ghim, Y. S., Kim, S.–W., & Yoon, S.–C. (2010). Effect of accumulation mode aerosols containing black carbon on water cloud formation observed during the PACDEX campaign. Journal of Korean Society for Atmospheric Environment, 26, 380–391. 

  3. Lee, S., Ghim, Y. S., Kim, S.–W., & Yoon, S.–C. (2009). Seasonal characteristics of chemically apportioned aerosol optical properties at Seoul and Gosan, Korea. Atmospheric Environment, 43, 1320–1328. 

  4. Lee, S., Ghim, Y. S., Kim, S.–W., & Yoon, S.–C. (2008). Seasonal variations of chemical composition and optical properties of aerosols at Seoul and Gosan. Journal of Korean Society for Atmospheric Environment, 24, 470–482. 

  5. Lee, S., Ghim, Y. S., Kim, Y. P., & Kim, J. Y. (2006). Estimation of the seasonal variation of particulate nitrate and sensitivity of fine particle mass concentration to emission changes in the greater Seoul area. Atmospheric Environment, 40, 3724–3736. 

  6. Ghim, Y. S., Moon, K.–C., Lee, S., & Kim, Y. P. (2005). Visibility trends in Korea during the past two decades. Journal of the Air & Waste Management Association, 55, 73–82. 

  7. Lee, S., Ghim, Y. S., Kim, Y. P., & Kim, J. Y. (2004). Seasonal variation of nitrate in the greater Seoul area using a photochemical box model and gas/aerosol equilibrium model. Journal of Korean Society for Atmospheric Environment, 20, 729–738. 

 

Shujuan Sun | Earth and Planetary Sciences | Best Researcher Award

Published on by Academic Achievements

Dr. Shujuan Sun | Earth and Planetary Sciences | Best Researcher Award

Lecturer | Chengdu University | China

Shujuan Sun is a dedicated lecturer at Chengdu University with a rich academic background from the Institute of Remote Sensing and Digital Earth at the Chinese Academy of Sciences. Her research career primarily revolves around planetary science, with a special emphasis on statistical analysis of impact craters and the spatial distribution and genetic analysis of lunar rilles. With a strong foundation in remote sensing technology, Sun’s work contributes to a deeper understanding of planetary surface evolution and geological processes, particularly on the Moon. She is deeply committed to advancing planetary science research and applying her knowledge in the academic realm by nurturing future scientists.

Profile

Scopus

Education:
Shujuan Sun completed her graduate studies at the Institute of Remote Sensing and Digital Earth, which is part of the prestigious Chinese Academy of Sciences. Her education focused on remote sensing technology and planetary science, equipping her with the skills to conduct advanced research in these fields. During her postgraduate years, Sun honed her expertise in utilizing remote sensing data for analyzing planetary surfaces, especially the Moon. This educational background laid a solid foundation for her subsequent career in research and teaching.

Experience:
Currently a lecturer at Chengdu University, Sun brings extensive research experience to her academic role. Her expertise lies in the statistical analysis of impact craters, where she processes and analyzes vast amounts of remote sensing data to identify and characterize impact craters, contributing to a deeper understanding of planetary surface evolution. Additionally, Sun’s research on lunar rilles is significant, focusing on their spatial distribution and the formation mechanisms of these features. Through a combination of various research methodologies, she has uncovered valuable insights into the geological processes that shaped the Moon. Sun’s experience is not just confined to research but extends to practical teaching, where she integrates her scientific discoveries into the curriculum to inspire and educate the next generation of planetary scientists.

Research Interests:
Shujuan Sun’s research interests lie at the intersection of planetary science, remote sensing technology, and lunar geology. She focuses particularly on the statistical analysis of impact craters, the spatial distribution of lunar rilles, and their formation mechanisms. By applying remote sensing technology, she is able to extract and analyze crucial data that sheds light on the geological evolution of planetary surfaces. Sun’s work seeks to answer fundamental questions about planetary surface formation, specifically regarding the Moon’s geological history, and the application of these research findings to broader planetary science studies. Additionally, Sun aims to continue advancing her research while incorporating her discoveries into her teaching, ensuring the next generation of scientists builds upon her findings.

Awards:
Shujuan Sun’s contributions to planetary science have been recognized through her participation in several collaborative research projects that have advanced our understanding of lunar geology. Although she has not publicly disclosed specific individual awards, her work has been an integral part of high-impact research publications in renowned scientific journals. Her research on lunar rilles and impact craters has positioned her as an emerging expert in the field of planetary science, earning her recognition within academic circles.

Publications:
Shujuan Sun has contributed to several significant publications that showcase her research in planetary science. Notable among her work are:

  1. Yue, Z., Sun, S., Du, J., Gou, S., Di, K., Wang, Y., Lin Y., Li X., Wu F. (2024). “New Insights into the Geological Evolution History of Mare Fecunditatis,” Icarus, 425.
  2. Yue Z., Gou S., Sun S., Yang W., Chen Y., Wang Y., Lin H., Di K., Lin Y., Li X., Wu F. (2024). “Geological context of the Chang’e-6 landing area and implications for sample analysis,” The Innovation, 5(5), 100663.
  3. Wang, Y., Nan, J., Zhao, C., Xie, B., Gou, S., Yue, Z., Di, K., Zhang, H., Deng, X., & Sun, S. (2024). “A Catalogue of Impact Craters and Surface Age Analysis in the Chang’e-6 Landing Area,” Remote Sensing, 16(11), 2014.
  4. Nan, J., Wang, Y., Di, K., Xie, B., Zhao, C., Wang, B., Sun, S., Deng, X., Zhang, H., & Sheng, R. (2025). “YOLOv8-LCNET: An Improved YOLOv8 Automatic Crater Detection Algorithm and Application in the Chang’e-6 Landing Area,” Sensors, 25(1), 243.

Her publications reflect her expertise in lunar geology, crater analysis, and the application of innovative technologies such as YOLOv8 for crater detection.

Conclusion:
Shujuan Sun’s academic and research journey demonstrates a deep commitment to advancing the field of planetary science, particularly in the areas of lunar geology and remote sensing. With a robust educational background from the Chinese Academy of Sciences and extensive experience at Chengdu University, she continues to make significant contributions to understanding the geological history of the Moon. Her work in analyzing impact craters and lunar rilles provides critical insights into planetary surface evolution, positioning her as a rising expert in planetary science. As she continues to pursue her research interests, Sun remains dedicated to fostering the next generation of planetary scientists and advancing the field further through innovative teaching and groundbreaking research.