4.6 Article

Natural coconut liquid derived nanosheets structured carbonaceous material for high-performance supercapacitors

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ELSEVIER
DOI: 10.1016/j.colsurfa.2021.127012

Keywords

Coconut liquid; Supercapacitor; Carbon; Nanosheets; Specific capacitance; Power density

Funding

  1. SERB DST, New Delhi, India [SR/FTP/PS-041/2012]
  2. Scheme Rajiv Gandhi Science & Technology Commission (RGS&TC), Government of Maharashtra via 'Kavayitri Bahinabai Chaudhari North Maharashtra University, Jalgaon (KBCNMU/RGSTC/Sanction Order/34)' [35LSR]

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By utilizing natural coconut liquid as a precursor, vertically aligned nanosheets carbon network was spray deposited on nickel foam electrodes, showing excellent electrochemical characteristics and stability. This bio-derived carbon electrode demonstrated high performance in supercapacitor devices, indicating potential cost-effective and green-synthesized materials for various applications.
Bio-derived carbon has been remarkably emerging potential candidates for high performance super-capacitive materials. Herein, we report the spray deposited vertically aligned nanosheets (thickness similar to 46 nm) carbon network on nickel foam electrodes using natural coconut liquid as a precursor for high-performance supercapacitor device application. These binder-free fabricated bio-carbon electrodes have characterized using XRD, FESEM, XPS, Raman, Elemental mapping, and EDS. The carbon was coated on nickel foam at different spray pyrolysis deposition times viz. 14, 18 and 22 min. This carbon deposited nickel foam electrodes were investigated for electrochemical characteristics viz EIS, CV, and GCD using 1 M KOH aqueous solution within 0-0.6 V potential window. The electrode CWC-22 exhibited the specific capacitance of 782.7 Fg(-1) for 1 Ag-1 current density. The energy density of 12.29 W h/kg and 1600 W/kg power density were achieved for CWC-22 electrode. The stability of the CWC-22 was studied by performing 3000 GCD cycles with excellent capacitance retention rate of 89.4% recorded at 5 Ag-1. The device fabrication and demo performance were also studied. This approach has the potential to accomplish cost-effective, green synthesized bio-derived carbon for high-performance electrochemical supercapacitor devices.

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