Institute of Physical Chemistry, PAS
Research on electrochemical fixation of CO2 by heterogenous porous catalysts.
Fabrication of multiple sites microporous polymers for mitigating CO2 and its utilization Physical Engineering
tel.: 48532866182 srazzaque@ichf.edu.pl
The root cause of global warming is anthropogenic carbondioxide emission. The only solution to scale is clean energy and CO2 neutral fuel production.
One of the ways to deal with excessive carbon dioxide emission is its adsorption. But even this approach is not acceptable for extra high levels of carbon dioxide emissions. Thus, the combo of adsorption and catalysis became an emergent research to cope with this dilemma. The porous materials are the most popular scaffold for the adsorption of the carbon dioxide. The current research is focused on the creation of carbon dioxide phillic sites to increase the adsorption and simultaneous reduction of CO2 using the electrocatalysis platform.
Shumaila Razzaque received her PhD in 2017 from the Huazhong University of Science and Technology. She furthered her postdoctoral research at UK-Nano Energy Materials Research Centre from 2018 to 2021. Her main research interests cover the development of polymeric materials, microporous polymers, nanocomposites, fabrication of metal nanoparticles for the adsorption, catalysis, and drug carrier perspective.
Razzaque, S., Guo, L., Weng, J., Su, L., & Tan, B. (2022). Facile fabrication of hypercrosslinked microporous polymer nanospheres for effective inhibition of triple negative breast cancer cells proliferation. Journal of Colloid and Interface Science, 620, 94-106.
Cheng, Y., Razzaque, S., Zhan, Z., & Tan, B. (2021). Construction and gas uptake performance of cyano-functional hypercrosslinked polymers via knitting strategy. Chemical Engineering Journal, 426, 130731.
Abid, A., Razzaque, S., Hussain, I., & Tan, B. (2021). Eco-Friendly Phosphorus and Nitrogen-Rich Inorganic–Organic Hybrid Hypercross-linked Porous Polymers via a Low-Cost Strategy. Macromolecules, 54(12), 5848-5855.
44/52 Kasprzaka 01-224 Warszawa, Poland
Supervisor
Prof. Marcin Opallo
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