S. Supriya
B.M.S. College of Engineering
21 Papers
16 Citations
S. Supriya is an academic researcher from B.M.S. College of Engineering. The author has contributed to research in topics: Carbon & Carbonization. The author has an hindex of 8, co-authored 17 publications.
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Papers
The Role of Temperature on Physical–Chemical Properties of Green Synthesized Porous Carbon Nanoparticles
S. Supriya,Ganesan Sriram,Zainab Ngaini,C. Kavitha,Mahaveer D. Kurkuri,Irene Paola De Padova,Gurumurthy Hegde +6 more
TL;DR: In this paper, a detailed study was conducted on the impact of temperature for the transformation of biowaste to sustainable, porous carbon nanostructures. But this study focused on the conversion of onion peel waste to carbon nanospheres.
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Carbon nanospheres derived from Lablab purpureus for high performance supercapacitor electrodes: a green approach
Gomaa A. M. Ali,Gomaa A. M. Ali,Divyashree A,S. Supriya,Kwok Feng Chong,Anita Sagadevan Ethiraj,M. V. Reddy,Hamed Algarni,Hamed Algarni,Gurumurthy Hegde +9 more
TL;DR: The electrodes showed 94% capacitance retention even after 5200 charge/discharge cycles entailing excellent recycling durability and the practical symmetrical supercapacitor showed good electrochemical behaviour under a potential window up to 1.7 V.
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Influence of surface properties on electro-chemical supercapacitors utilizing Callerya atropurpurea pod derived porous nanocarbons: Structure property relationship between porous structures to energy storage devices
Vinay S. Bhat,Vinay S. Bhat,S. Supriya,Titilope John Jayeoye,Thitima Rujiralai,Uraiwan Sirimahachai,Kwok Feng Chong,Gurumurthy Hegde +7 more
- 01 Aug 2020
TL;DR: In this paper, the surface properties always play a dominant role in the energy storage devices and understanding the surface phenomena is the key to tune energy storage device using biowaste based porous nano carbons.
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Conjugated systems of porphyrin–carbon nanoallotropes: a review
TL;DR: In this article, various mechanisms of conjugating carbon nanoallotropes/carbon nanomaterials and porphyrins through stable chemical bond formation are discussed and the non-covalent interactions which cause their aggregation without disrupting their electronic structures are also discussed.
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