IESc Seminar Series: The Battle Against Indoor Pollutants: Strategies and Innovations in Air Pollution Remediation - By Dr. Mahshab Sheraz
Institute of Environmental Sciences Seminar Series
“The Battle Against Indoor Pollutants: Strategies and Innovations in Air Pollution Remediation”
By Dr. Mahshab Sheraz
Republic of Korea Institute of Industrial Technology (KITECH)
We cordially invite you to our seminar “The Battle Against Indoor Pollutants: Strategies and Innovations in Air Pollution Remediation” by Dr. Mahshab Sheraz, Republic of Korea Institute of Industrial Technology (KITECH)
When: 19 June, Monday, 14:00-15:00
Where: https://bulive.boun.edu.tr/b/cem-n0u-enq-uxp
Contact: pinar.ertor@boun.edu.tr for any questions.
Abstract:
Indoor air pollution and the transmission of SARS-CoV-2 have emerged as critical concerns with detrimental impacts on human health. This seminar addresses the pressing need for effective air filtration systems that can combat microorganism transmission and reduce air pollutants in indoor environments. To tackle this challenge, we have developed innovative air remediation filters utilizing a copper metal-organic framework (Cu-MOF), which offers superior performance when compared to traditional activated carbon filters. Our fabricated Cu-CPP/Al2O3 beads-based filter demonstrates excellent adsorption capabilities for volatile organic compounds (VOCs), CO2, and particulate matter (PM2.5), while also exhibiting antimicrobial properties. Furthermore, we have designed a cutting-edge 4-in-1 multifunctional air filter, known as the Cu-CPP/NWF air filter, composed of non-woven fibers. This remarkable filter can effectively adsorb VOCs, capture PM2.5, and eliminate microorganisms in a single filtration process. Additionally, we have engineered a self-cleaning air filter membrane adorned with a photocatalytic CuBTC/PS/TiO2 membrane, ensuring long-lasting and efficient performance. These revolutionary advancements in air filtration technology have the potential to substantially reduce indoor air pollution and protect human health. By presenting these novel solutions, we aim to inspire further research and development in the field of air remediation filters, leading to healthier and safer indoor environments for all.
Keywords: Indoor air pollution; Air filtration system; Cu-MOF (Copper metal-organic framework)
Short Bio:
Dr. Mahshab Sheraz is a distinguished Post-doc researcher at the Korea Institute of Industrial Technology (KITECH) in the Republic of Korea. He holds a BS (Hons) degree in environmental sciences and technology from GCUF Faisalabad Pakistan. He has a Master's degree specializing in Climate Change and Energy from Hallym University. He completed his Ph.D. in Environmental Sciences and Biotechnology from Hallym University. Dr. Sheraz is actively involved in three groundbreaking academic projects supported by the Korean government. With 16 SCI-grade international publications, including 10 as a lead author, he has demonstrated his research leadership and expertise. He has also filed 6 Korean patents and has presented his work at numerous domestic and international conferences. His research focuses on key areas such as air pollution control, nanofiber synthesis for environmental remediation, metal-organic framework (MOF) synthesis, and the development of photocatalytic nanomaterials. Dr. Sheraz has also contributed significantly to climate change and mitigation strategies, as well as the fields of pyrolysis and waste-to-energy. Dr. Sheraz is a highly accomplished researcher with notable contributions to the field of environmental sciences and biotechnology. His exceptional publication record, patent filings, and active engagement in conferences highlight his expertise and dedication to addressing global environmental challenges.