Knowledge Agora

Title	Agricultural waste to real worth biochar as a sustainable material for supercapacitor
ID_Doc	21034
Authors	Khedulkar, AP; Pandit, B; Dang, VD; Doong, RA
Title	Agricultural waste to real worth biochar as a sustainable material for supercapacitor
Year	2023
Published
Abstract	Biochar made from agricultural waste is gaining more attention in energy field due to its sustainability, low cost, apart from having high supercapacitance performance. Also, it has a wide range of environmental applications, including wastewater treatment, upgrading soil fertility, contaminant immobilization, and in situ carbon sequestration. The existing thermo-chemical methodologies for converting agricultural waste into a sustainable material i.e. biochar and the role of activation agents in enhancing the performance of these materials were critically analyzed and discussed. An overview of recent trends in agricultural waste-derived biochar for supercapacitor electrodes is highlighted in this review that emphasizes green circular economy for encouraging net-zero utility of agriculture waste biomass. The roles of various newly prepared "green" electrolytes in reducing the negative consequences of supercapacitor is also reviewed. The trashing of agricultural waste and the depletion of energy supplies has become a global concern, hurting the world's ecosystem and economy through pollution and a fuel crisis and hence the concept of a green circular economic model is also highlighted.
PDF

Similar Articles

ID	Score	Article
22301		Venna, S; Sharma, HB; Mandal, D; Reddy, HP; Chowdhury, S; Chandra, A; Dubey, BK Carbon material produced by hydrothermal carbonisation of food waste as an electrode material for supercapacitor application: A circular economy approach(2022)Waste Management & Research, 40.0, 10
3452		Cao, TND; Mukhtar, H; Yu, CP; Bui, XT; Pan, SY Agricultural waste-derived biochar in microbial fuel cells towards a carbon-negative circular economy(2022)
23425		Jafari, M; Botte, GG Sustainable Green Route for Activated Carbon Synthesis from Biomass Waste for High-Performance Supercapacitors(2024)Acs Omega, 9, 11
8795		Mamani, A; Barreda, D; Sardella, MF; Bavio, M; Blanco, C; González, Z; Santamaría, R Fe-doped biomass-derived activated carbons as sustainable electrode materials in supercapacitors using different electrolytes(2024)
6741		Martiny, TR; Avila, LB; Rodrigues, TL; Tholozan, LV; Meili, L; de Almeida, ARF; da Rosa, GS From waste to wealth: Exploring biochar's role in environmental remediation and resource optimization(2024)
10401		Subramaniam, T; Krishnan, SG; Ansari, MNM; Hamid, NA; Khalid, M Recent progress on supercapacitive performance of agrowaste fibers: a review(2023)Critical Reviews In Solid State And Materials Sciences, 48, 2
21535		Yameen, MZ; Naqvi, SR; Juchelkova, D; Khan, MNA Harnessing the power of functionalized biochar: progress, challenges, and future perspectives in energy, water treatment, and environmental sustainability(2024)Biochar, 6.0, 1
28049		Mishra, R; Gollakota, ARK; Shu, CM Cultivating eco-advantages: Unleashing the distinctive potential of biochar in microbial fuel cells(2024)
10672		Krishnan, SG; Arulraj, A; Jagadish, P; Khalid, M; Nasrollahzadeh, M; Fen, R; Yang, CC; Hegde, G Pore size matters!-a critical review on the supercapacitive charge storage enhancement of biocarbonaceous materials(2023)Critical Reviews In Solid State And Materials Sciences, 48, 1
14376		Brandao, ATSC; State, S; Costa, R; Potorac, P; Vázquez, JA; Valcarcel, J; Silva, AF; Anicai, L; Enachescu, M; Pereira, CM Renewable Carbon Materials as Electrodes for High-Performance Supercapacitors: From Marine Biowaste to High Specific Surface Area Porous Biocarbons(2023)Acs Omega, 8, 21