Environmental Monitoring
Our expertise delves into small-scale fundamental processes involving atmospheric aerosols, with a strong emphasis on advanced scientific equipment and expertise related to atmospheric pollution and climate change. We specialize in developing state-of-the-art environmental instruments and pioneering methods for assessing environmental quality. Our focus includes understanding the formation and evolution of natural and anthropogenic aerosol particles and their interactions with pollution sources. We provide cutting-edge solutions to identify and assess pollution sources, and we meticulously evaluate the impact of various fuels on the environment and climate change mitigation. By contributing to regional air pollution control strategies, we integrate advanced air quality knowledge into global research networks. Our commitment includes innovative technologies for ambient air and indoor microclimate quality assessment, as well as developing precision instruments for mercury determination and nano-composites for removing harmful metals and radionuclides. Our research and technology development support modern, eco-friendly solutions for observing, simulating, preventing, and mitigating atmospheric pollution and climate change.
Microplastic Studies
Our groundbreaking research addresses the urgent challenge of microplastic pollution. We explore microplastic sorption, degradation, and the synthesis of nanomaterials for effective degradation and absorption of microplastic particles. By unraveling the fundamental processes of microplastic interactions with the environment, we innovate new methods for assessing and mitigating microplastic pollution. Our advanced nano-composites, including graphene oxide, magnetite, Prussian blue, and chitosan, are designed to remove harmful metals and radionuclides, with applications extending to microplastic remediation. Our state-of-the-art environmental instruments and advanced assessment methods also evaluate the impact of microplastics on air quality, ecosystems, and human health, contributing to comprehensive pollution control and climate change mitigation strategies.
Smart Cities
We are at the forefront of developing cutting-edge technologies for smart cities, with a focus on environmental monitoring and quality control. By investigating the chemical compositions of aerosols and their impacts on air quality and human health, we offer innovative solutions tailored for urban environments. Our advanced sensors and monitoring devices provide real-time assessment of air pollution and indoor microclimate quality, essential for smart city initiatives. With expertise in pollution source identification and the impact assessment of fuels and industrial activities, we support sustainable urban strategies. By integrating advanced air quality knowledge into smart city projects, we enhance urban living conditions and drive climate change adaptation and mitigation efforts.
Monitoring Devices Development
Our leadership in developing advanced monitoring devices sets us apart. We offer advanced instruments for measuring atmospheric aerosols, mercury, and other pollutants. Our innovative methods and technologies for pollution source identification, air quality monitoring, and climate change mitigation are second to none. Through mass-spectrometry methods and other advanced techniques, we deliver efficient instrumentation and assessment methods for a wide range of environmental monitoring applications. Our commitment to developing modern, eco-friendly technologies ensures that we contribute significantly to both regional and global environmental research and monitoring initiatives.
Innovative Technology and Equipment Development
Efficient Instrumentation and Assessment
- Develop advanced technologies and equipment for environmental protection quality control.
- determine new methods and experimental bases for environmental research.
- Investigate the dynamics and balance of micro-admixtures in environmental components.
- Characterize and mitigate the impact of environmental contamination on climate change.
- Evaluate and enhance the impact of industry, transport, and consumer sectors on environmental quality.
- Implement advanced spectrometry methods for analyzing aerosol particle mass and size.
- Explore the physical-chemical aspects of aerosol particle formation.