Sergio Armando Barbosa | Engineering | Best Researcher Award

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Dr. Sergio Armando Barbosa | Engineering | Best Researcher Award

Dr. Sergio Armando Barbosa, University of Virginia, United States

Sergio Armando Barbosa Casas is a dedicated hydrologist and civil engineer with a strong background in groundwater modeling, hydrodynamics, and environmental sustainability. He holds a Ph.D. in Civil Engineering from Brigham Young University and currently serves as a Postdoctoral Research Associate at the University of Virginia. His research focuses on assessing flooding impacts, coastal sustainability, and groundwater resource management using Earth observations and advanced modeling techniques. With over a decade of experience, he has worked with institutions such as IDEAM, CAR, and Aquaveo, contributing to hydrological forecasting, river basin assessments, and flood risk analysis. His work has been published in high-impact journals, and he has presented at global conferences. Fluent in English and Spanish, he actively collaborates with interdisciplinary teams to address climate resilience and water resource challenges. His contributions to academia and research continue to advance sustainable solutions for environmental and hydrological challenges.

Professional Profile

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Suitability for the β€œResearch for Best Researcher Award” – Sergio Armando Barbosa Casas

Dr. Sergio Armando Barbosa Casas is an exceptionally qualified candidate for the Research for Best Researcher Award, given his extensive contributions to hydrology, groundwater modeling, and urban flood risk assessment. His research has significantly advanced the understanding of groundwater resource assessment, particularly in West Africa, through Earth observations and modeling. His Ph.D. dissertation at Brigham Young University was a groundbreaking study on groundwater resource assessment, a critical topic for sustainable water management.

Currently serving as a Postdoctoral Research Associate at the University of Virginia, Dr. Barbosa is involved in interdisciplinary research on coastal and urban flooding vulnerabilities, sustainability, and salt intrusion in aquifers. His collaboration with government agencies and stakeholders to develop informed decision-making processes for groundwater management highlights his real-world impact. His prior experience as a hydrologist at IDEAM (Colombian Institute of Hydrology, Meteorology, and Environmental Studies) and a design engineer at CAR (Regional Autonomous Corporation) further demonstrate his expertise in hydrological modeling, flood risk assessment, and environmental sustainability.

πŸŽ“ Education

Sergio A. Barbosa Casas earned his Ph.D. in Civil Engineering from Brigham Young University in 2023, where he conducted groundbreaking research on groundwater resource assessment in West Africa using Earth observations and numerical modeling. His dissertation explored the impact of climate change and human activities on groundwater storage and recharge, providing valuable insights into water management strategies for arid regions. Prior to this, he obtained an M.S. in Civil Engineering from the National University of Colombia in 2014, focusing on water resource management and hydrological modeling. His academic journey began with a B.S. in Agricultural Engineering from the same institution in 2009, where he developed expertise in hydraulic systems and watershed management. Throughout his studies, he actively engaged in research projects, collaborated with international teams, and contributed to policy recommendations. His diverse educational background has equipped him with a solid foundation in hydrology, climate resilience, and engineering solutions.

πŸ’Ό Professional Experience 

Sergio A. Barbosa Casas has amassed extensive experience in hydrology, groundwater modeling, and environmental engineering. Currently, he is a Postdoctoral Research Associate at the University of Virginia, where he leads research on flooding impacts, coastal resilience, and sustainability. Previously, he was a Research Assistant at Brigham Young University, where he developed groundwater models for major aquifers in West Africa, utilizing remote sensing and field data. His industry experience includes working as an Engineering Intern at Aquaveo, where he created 3D groundwater simulations. Additionally, he served as a Hydrologist at IDEAM in Colombia, leading hydrological forecasting and flood risk assessments. As a Design Engineer at CAR, he developed dynamic models to evaluate water quality in the BogotΓ‘ River. His expertise spans across academia, government agencies, and private sectors, making him a well-rounded professional in water resource engineering, flood modeling, and climate adaptation strategies.

πŸ… Awards and Recognition

Sergio A. Barbosa Casas has received numerous awards and grants for his contributions to hydrology and environmental engineering. He was awarded the Climate Fellows Postdoctoral Program Fellowship at the University of Virginia in 2024. During his Ph.D., he secured the Civil & Construction Engineering Scholarship Society Award (2019-2022). His research excellence earned him the Bill Stolte Best Student Paper Award at the Canadian Water Resources Association National Conference in 2022. Additionally, he has contributed to prestigious projects funded by the National Science Foundation (NSF), with grants exceeding $5 million. His involvement in the NASA/USAID Research Grant on sustainable groundwater management in West Africa further highlights his global impact. Recognized for his interdisciplinary approach and innovative methodologies, his work continues to shape water resource sustainability and climate resilience. His expertise is sought after in academic and professional circles worldwide.

🌍 Research Skills On Engineering

Sergio A. Barbosa Casas is an expert in hydrological modeling, groundwater resource management, and climate resilience. His research integrates Earth observations, GIS, and remote sensing with hydrodynamic and groundwater modeling tools such as MODFLOW, HEC-RAS, and TUFLOW. He specializes in analyzing flood risks, coastal vulnerabilities, and sustainable water management strategies. His technical skills include numerical simulations, Python programming, and machine learning applications in hydrology. He has worked extensively with stakeholders, translating complex hydrological data into actionable policies. His work on urban flooding, saltwater intrusion, and groundwater sustainability has been published in high-impact journals and presented at global conferences. With a keen interest in data-driven solutions for climate adaptation, he collaborates across disciplines to develop innovative approaches for managing water resources in changing environments. His research continues to influence sustainable development, providing practical solutions for water security challenges.

Publication Top Notes

  • Deep learning-based downscaling of global digital elevation models for enhanced urban flood modeling

    • Author(s): Zanko Zandsalimi, Sergio A. Barbosa, Negin Alemazkoor, Jonathan L. Goodall, Majid Shafiee-Jood
    • Citation: Journal of Hydrology, 2025-06
    • DOI: 10.1016/j.jhydrol.2025.132687
    • Year: 2025

  • Exploring infiltration effects on coastal urban flooding: Insights from nuisance to extreme events using 2D/1D hydrodynamic modeling and crowdsourced flood reports

    • Author(s): Sergio A. Barbosa, Yidi Wang, Jonathan L. Goodall
    • Citation: Science of The Total Environment, 2025-03
    • DOI: 10.1016/j.scitotenv.2025.178908
    • Year: 2025

  • Exploiting Earth Observations to Enable Groundwater Modeling in the Data-Sparse Region of Goulbi Maradi, Niger

    • Author(s): Sergio A. Barbosa, Norman L. Jones, Gustavious P. Williams, Bako Mamane, Jamila Begou, E. James Nelson, Daniel P. Ames
    • Citation: Remote Sensing, 2023-11-01
    • DOI: 10.3390/rs15215199
    • Year: 2023

  • Exploiting Earth Observations to Enable Groundwater Modeling in the Data-Sparse Region of Goulbi Maradi, Niger (Preprint)

    • Author(s): Sergio A. Barbosa, Norman L. Jones, Gustavious P. Williams, Bako Mamane, Jamila Begou, E. James Nelson, Daniel P. Ames
    • Citation: Preprint, 2023-08-30
    • DOI: 10.20944/preprints202308.2021.v1
    • Year: 2023

  • Correction: Barbosa et al. Evaluating Groundwater Storage Change and Recharge Using GRACE Data: A Case Study of Aquifers in Niger, West Africa. Remote Sens. 2022, 14, 1532

    • Author(s): Sergio A. Barbosa, Sarva T. Pulla, Gustavious P. Williams, Norman L. Jones, Bako Mamane, Jorge L. Sanchez
    • Citation: Remote Sensing, 2023-03-03
    • DOI: 10.3390/rs15051435
    • Year: 2023

Jingping Liu | Engineering | Best Researcher Award

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Prof. Dr. Jingping Liu | Engineering | Best Researcher Award

πŸ‘€ Prof. Dr. Jingping Liu, Kunming University of Science and Technology, China

Jingping Liu, an Associate Professor at Kunming University of Science and Technology (KUST), holds a Ph.D. from Guangzhou Institute of Geochemistry, Chinese Academy of Sciences. With expertise in atmospheric science and engineering, her research focuses on heterogeneous photochemical reactions, indoor air pollution, and the catalytic degradation of sulfur and nitrogen-containing volatile organic compounds (VOCs). Since 2021, Dr. Liu has explored kinetics, mechanisms, and photochemistry of multiphase reactions on environmental surfaces, contributing to improved air quality and climate change models. Her prolific academic output includes over 48 SCI-indexed publications, with more than 1,400 citations and an h-index of 21. She has collaborated with leading global researchers and institutions, including the University of Pennsylvania and CNRS-IRCELYON. Her work has garnered recognition in prestigious journals such as Science Advances and Environmental Science & Technology, establishing her as a thought leader in atmospheric chemistry and industrial pollution control.

Professional Profile

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🌟 Summary of Suitability for the β€œResearch for Best Researcher Award”

Dr. Jingping Liu exemplifies excellence in the field of atmospheric science and environmental engineering, making him a strong candidate for the β€œResearch for Best Researcher Award.” His academic journey, from earning a Ph.D. at the Guangzhou Institute of Geochemistry to becoming an Associate Professor at Kunming University of Science and Technology, highlights a career dedicated to advancing scientific understanding and addressing critical environmental challenges.

Dr. Liu’s research primarily focuses on the kinetics, mechanisms, and photochemistry of multiphase reactions on environmental and indoor surfaces, as well as innovative solutions for industrial VOC control. His work has significant real-world implications, contributing to improved air quality and climate change mitigation. With over 48 publications in high-impact journals such as Science Advances, JACS, and Environmental Science & Technology, his research outputs have garnered more than 1,400 citations, reflecting a strong influence in his field.

πŸŽ“ Education

Dr. Jingping Liu earned her Ph.D. in Atmospheric Chemistry from the Guangzhou Institute of Geochemistry, Chinese Academy of Sciences. Her academic journey reflects a steadfast commitment to exploring the science of air quality and environmental pollutants. She specialized in understanding heterogeneous photochemical reactions and their environmental impact, laying a strong theoretical foundation for tackling real-world pollution challenges. Dr. Liu actively engages in academic collaborations and research exchanges, contributing to her comprehensive grasp of atmospheric chemistry. Beyond her doctoral research, she has pursued specialized studies in catalysis, photochemistry, and pollutant control technologies, aligning her education with her mission to address pressing environmental challenges. These academic experiences have equipped her with the knowledge and research skills necessary to advance innovations in indoor air quality improvement and industrial VOCs control technologies, making her an influential voice in the scientific community.

πŸ’Ό  Professional Experience

Dr. Jingping Liu is an Associate Professor at Kunming University of Science and Technology (KUST). She has extensive experience in atmospheric science and engineering, focusing on heterogeneous photochemical reactions and the mitigation of air pollution. Dr. Liu has led and contributed to numerous research projects, including four completed and five ongoing studies on photochemical reactions, indoor air quality, and VOC control technologies. She has collaborated with prominent researchers and institutions worldwide, such as Academician Joseph S. Francisco (University of Pennsylvania) and Professor Christian A. George (CNRS-IRCELYON). Dr. Liu has also actively participated in academic exchanges and conferences, sharing insights with the global scientific community. Her career achievements extend to mentoring young scientists, publishing influential research in high-impact journals, and enhancing KUST’s academic reputation. Through her innovative approach, she continues to make significant contributions to the fields of atmospheric chemistry and industrial pollution management.

πŸ… Awards and Recognitions 

Dr. Jingping Liu has achieved notable recognition in her field for her groundbreaking contributions to atmospheric science and environmental research. Her work has earned her several prestigious accolades, including high-impact publications in leading journals like Science Advances and Environmental Science & Technology. With over 1,400 citations and an h-index of 21, her research is widely referenced in the scientific community. Dr. Liu has collaborated with globally renowned researchers and institutions, which has further enhanced her academic and professional reputation. She has also contributed to significant advancements in VOC control technology and air quality improvement. Additionally, her innovative research has been recognized through successful patent publications, showcasing her practical applications of scientific discoveries. These honors reflect her dedication to advancing the understanding of environmental challenges and her commitment to developing sustainable solutions for air pollution and climate change.

🌍  Research Skills On Engineering

Dr. Jingping Liu excels in a diverse range of research skills pivotal to atmospheric science and environmental engineering. Her expertise includes designing and conducting advanced experiments to investigate heterogeneous photochemical reactions on environmental and indoor surfaces. She specializes in analyzing the formation mechanisms of pollutants such as HONO and brown carbon, utilizing state-of-the-art analytical techniques. Dr. Liu is adept at integrating photochemical models to enhance air quality and climate predictions. Her skillset extends to developing innovative technologies for industrial VOC degradation, emphasizing sulfur- and nitrogen-containing compounds. She also has extensive experience collaborating with international research teams, leveraging cross-disciplinary insights to address complex environmental challenges. With a keen eye for detail and a methodical approach, Dr. Liu has consistently contributed to impactful, data-driven solutions for air pollution control, making her an asset to both academia and industry.

πŸ“– Publication Top Notes

  • A systematic review of the source, formation mechanism, and environmental effects of HONO in the indoor air
    • Authors: Lingling Li, Yuanzhe Li, Yanan Hu, Jingwei Zhang, Wei Du, Sasho Gligorovski, Jiangping Liu
    • Citations: Crossref (no specific citation count available)
    • Year: 2025
  • Resolving the Formation Mechanism of HONO via Ammonia-Promoted Photosensitized Conversion of Monomeric NO2 on Urban Glass Surfaces
    • Authors: Jiangping Liu, Bai Li, Huifan Deng, Yan Yang, Wei Song, Xinming Wang, Yongming Luo, Joseph S. Francisco, Lei Li, Sasho Gligorovski
    • Citations: Crossref (no specific citation count available)
    • Year: 2023
  • Unraveling the Synergistic Reaction and the Deactivation Mechanism for the Catalytic Degradation of Double Components of Sulfur-Containing VOCs over ZSM-5-Based Materials
    • Authors: Rui Tian, Jichang Lu, Zhizhi Xu, Wenjun Zhang, Jiangping Liu, Langlang Wang, Yibing Xie, Yutong Zhao, Xiaohua Cao, Yongming Luo
    • Citations: Crossref (no specific citation count available)
    • Year: 2023
  • Daytime SO2 chemistry on ubiquitous urban surfaces as a source of organic sulfur compounds in ambient air
    • Authors: Huifan Deng, Pascale S. J. Lakey, Yiqun Wang, Pan Li, Jinli Xu, Hongwei Pang, Jiangping Liu, Xin Xu, Xue Li, Xinming Wang, et al.
    • Citations: Crossref (no specific citation count available)
    • Year: 2022