Alexandre Berger | Atmospheric science | Best Researcher Award

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Dr. Alexandre Berger | Atmospheric science | Best Researcher Award

Dr. Alexandre Berger, University Burgundy Europe, France

Dr. Alexandre Berger is a climatologist specializing in atmospheric physics and chemistry, climate modeling, and urban climate adaptation. Born on June 5, 1986, in Laon, France, he has contributed extensively to climate research through numerical simulations and statistical analyses. His work focuses on climate change impacts, urban heat islands, and atmospheric aerosol chemistry. With postdoctoral experiences at the University of Burgundy and the University of Toulouse III, he has been actively involved in projects like H2020 RESPONSE and ANR DYVALOCCA. Dr. Berger has also served as a professor, mentor, and researcher, advancing climate science while engaging in public outreach.

Publication Profile

Scopus

Education 🎓📚

Dr. Alexandre Berger earned his PhD in Atmospheric Sciences from the University of Toulouse III (2011–2014), focusing on multi-scale modeling of atmospheric aerosol chemistry. He completed his Master’s in Ocean-Atmosphere and Continental Surfaces (2009–2011) at the same institution, specializing in meteorology, atmospheric chemistry, and remote sensing. His research included numerical evaluations of cloud chemistry’s contribution to secondary organic aerosols. Before that, he obtained a Bachelor’s degree in Fundamental Physics (2007–2009) from the University of Toulouse III, covering fluid mechanics, electromagnetism, and quantum physics. Additionally, he holds a DUT in Physical Measurements (2004–2006) from the University of Champagne-Ardenne, with expertise in thermal transfers, optics, and material properties.

Experience

Dr. Berger has extensive research and teaching experience. He worked as a postdoctoral researcher at the University of Burgundy (2021–2024), leading numerical climate simulations for urban heat islands and cloud cover formation in Africa. From 2016–2017, he studied climate variability in the Mont-Blanc massif using WRF simulations. His doctoral research at the University of Toulouse III (2011–2014) focused on atmospheric aerosol chemistry. As an educator, he has taught at the University of Burgundy and the University of Toulouse III, instructing students in statistics, mathematics, and atmospheric sciences. He also worked as a mathematics and physics teacher in French high schools from 2018–2020.

Awards and Honors 🏆🎖️

Dr. Berger has been recognized for his contributions to climate modeling and atmospheric research. His doctoral research on aerosol chemistry received accolades for innovation in multi-scale numerical modeling. His work on urban climate adaptation, particularly in the H2020 RESPONSE project, earned recognition from the scientific community. He has also been acknowledged for his contributions to ANR DYVALOCCA and ANR MONT-BLANC projects, advancing understanding of climate change impacts. As an educator, he has received commendations for his mentorship and teaching excellence at the University of Burgundy and Toulouse III.

Research Focus 🌍🔬

Dr. Berger specializes in atmospheric physics, climate modeling, and urban heat island mitigation. His research integrates numerical simulations with observational data to study urban climate dynamics, cloud formation, and climate variability. He has worked on European and African climate projects, focusing on mesoscale atmospheric modeling, statistical downscaling, and climate adaptation strategies. His expertise spans tropospheric chemistry, aerosol microphysics, and remote sensing applications for climate monitoring. His contributions aim to improve climate resilience, urban planning, and environmental policies through advanced modeling techniques.

Publication Top Notes

  • “Aerosol processing and CCN formation of an intense Saharan dust plume during the EUCAARI 2008 campaign” (2015) – Atmospheric Chemistry and PhysicsResearchGate

  • “Modeling organic aerosol composition at the Puy de Dôme mountain (France) for two contrasted air masses with the WRF-Chem model” (2015) – Atmospheric Chemistry and PhysicsResearchGate+1ACP+1

  • “Evaluation of Meso-NH and WRF/CHEM simulated gas and aerosol chemistry over Europe based on hourly observations” (2016) – Atmospheric Research

  • “Huge decrease of frost frequency in the Mont-Blanc Massif under climate change” (2019) – Scientific ReportsPubMed

  • “The dry-season low-level cloud cover over Western Equatorial Africa: a case study with a mesoscale atmospheric model” (2024) – Quarterly Journal of the Royal Meteorological SocietyRoyal Meteorological Society

Peng Cui | Environmental Science | Best Researcher Award

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Peng Cui | Environmental Science | Best Researcher Award

Assoc Prof Dr Peng Cui, Northeast Forestry University, China

Prof. Dr. Peng Cui 🏛️ is a distinguished academic with a PhD in Architecture from Harbin Institute of Technology and National University of Singapore. Currently a Professor and PhD Supervisor in Urban and Rural Planning at the College of Landscape Architecture, Northeast Forestry University, he focuses on low-carbon sustainable urban development, green urban design, and building energy simulation & control. Dr. Cui has authored 3 textbooks and 2 monographs, led 7 National Natural Science Foundation projects in China, and secured ongoing research funding of USD 200,000. He has published 23 SCI-indexed papers, with notable contributions to sustainable cities and environmental design. 🌿📚

Publication profile

Orcid

🎓 Education and Academic Roles

Professor Peng Cui holds a PhD in Architecture from Harbin Institute of Technology and National University of Singapore. He is a Postdoctoral Researcher in Landscape Architecture and a Professor in Urban and Rural Planning at the College of Landscape Architecture, Northeast Forestry University.

📚 Publications and Achievements

Prof. Cui has authored 3 textbooks and 2 monographs. He has published 23 SCI-indexed papers, including in top-tier journals like Sustainable Cities and Society and Building and Environment.

Research focus

Peng Cui’s research primarily focuses on urban climate and environmental design, particularly in cold regions like Northeast China. His studies explore the impacts of urban green spaces, street design, and building morphology on local climate variables such as land surface temperature (LST), urban heat islands (UHI), and air quality. His work often employs advanced methods like gradient boosted regression trees and optimization algorithms to assess and improve urban microclimates. Key areas of interest include sustainable urban design, energy consumption, and environmental comfort in extreme climates. 🌳🏙️🌡️

Publication top notes

Assessing the effects of urban green spaces metrics and spatial structure on LST and carbon sinks in Harbin, a cold region city in China

Effect of street design on UHI and energy consumption based on vegetation and street aspect ratio: Taking Harbin as an example

Assessing the Effects of Urban Morphology Parameters on PM2.5 Distribution in Northeast China Based on Gradient Boosted Regression Trees Method

[Retracted] A Study on Nonvisual Effects of Natural Light Environment in a Maternity Ward of a Hospital in Cold Area

Research on Acoustic Environment in the Building of Nursing Homes Based on Sound Preference of the Elderly People: A Case Study in Harbin, China

A Sustainable Design Strategy Based on Building Morphology to Improve the Microclimate of University Campuses in Cold Regions of China Using an Optimization Algorithm

Study on the Effect of Streets’ Space Forms on Campus Microclimate in the Severe Cold Region of China—Case Study of a University Campus in Daqing City

Impact of urban morphology on outdoor air temperature and microclimate optimization strategy base on Pareto optimality in Northeast China

Study of the Cooling Effects of Urban Green Space in Harbin in Terms of Reducing the Heat Island Effect

Assessing the Effects of Urban Morphology Parameters on Microclimate in Singapore to Control the Urban Heat Island Effect