Institute of Physical Chemistry, PAS
Exploration of alternative energy storage devices using a variety of electrodes and electrolytes.
Metal-organic frameworks for zinc-ion hybrid energy storage devices Physical Engineering
phone no. +48 666 213 190
ssundriyal@ichf.edu.pl
Batteries possess very high energy density but poor cyclic stability while supercapacitors possess long cycle lives but moderate energy density. This means that both these energy storage devices are not efficient individually.
The research aims to improve the electrochemical performance of both batteries and supercapacitor by integrating them into a single hybrid device to cherish the features of both devices. The PASIFIC proposal intends to replace complex and costly monovalent ion batteries and capacitors with a facile zinc-ion hybrid electrochemical capacitor (Zn-HEC) facilitated by modification of electrodes with porous metal-organic frameworks (MOFs) and superior anti-freezing polymer gel electrolyte. The work is planned to tune both electrodes and electrolytes in a way to achieve a perfect next generation alternative energy storage device for superior electrochemical performance and safer energy battery.
Shashank Sundriyal completed his B.Tech and M.Tech in 2013 and 2015, respectively. He earned his PhD in August 2019 from the Academy of Scientific and Innovative Research, India. From September 2019 to March 2022 he conducted his research as a postdoctoral fellow at CSIR-National Physical Laboratory in India. Presently, he is working as assistant professor under the PASIFIC Fellowship Programme at the Institute of Physical Chemistry of the Polish Academy of Sciences in Warsaw.
Sundriyal, S., Kaur, H., Bhardwaj, S. K., Mishra, S., Kim, K. H., & Deep, A. (2018). Metal-organic frameworks and their composites as efficient electrodes for supercapacitor applications. Coordination Chemistry Reviews, 369, 15-38.
Sundriyal, S., Shrivastav, V., Bhardwaj, S. K., Mishra, S. & Deep, A. (2021). Tetracyanoquinodimethane doped copper-organic framework electrode with excellent electrochemical performance for energy storage applications. Electrochimica Acta, 380, 138229.
Sundriyal, S., Shrivastav, V., Dubey, P., Singh, M., Deep, A. & Dhakate, S. R. (2022). Highly porous carbon from Azadirachta Indica leaves and UIO-66 derived metal oxide for asymmetrical supercapacitors. IEEE Transactions on Nanotechnology, 21, 60-65.
44/52 Kasprzaka 01-224 Warsaw, Poland
Supervisor
Wojciech Nogala, PhD
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