Exploratory mass dispersoid rGO in-situ influence on nickel phosphate-trimesic acid metal-organic framework for higher energy density hybrid supercapacitors

The present study investigates effect of reduced graphene oxide (rGO) mass dispersoid @ 25, 50, 75, and 100 mg through in-situ process into Metal Organic Framework based Nickel Phosphate (MOFNP) synthesized by facile microwave technique. The XRD study confirms monoclinic crystalline geometry and 50 ...

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Bibliographic Details
Published in:Journal of energy storage 2024-11, Vol.102, p.114140, Article 114140
Main Authors: Vinoth Kumar, Ravi, Vickraman, Palanisamy, Raja, Thomai Arul, Bharathi, M.S. Ramya
Format: Article
Language:English
Subjects:
High energy density
Hybrid supercapacitors
Metal-organic framework
Nickel phosphate
Reduced graphene oxide
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Summary:The present study investigates effect of reduced graphene oxide (rGO) mass dispersoid @ 25, 50, 75, and 100 mg through in-situ process into Metal Organic Framework based Nickel Phosphate (MOFNP) synthesized by facile microwave technique. The XRD study confirms monoclinic crystalline geometry and 50 mg rGO dispersed MOFNP (MOFNPG2) composite has shown increase in crystallinity. SEM shows rectangular morphology for MOFNPG2 and Raman studies show ID/IG ratio of 1.01 for this composite revealing rGO coordination with MOFNP. BET studies reveal higher specific surface area (59.75 m2 g−1) for MOFNPG2 and exhibits mesoporosity (3.14 nm) with type-IV Langmuir isotherm. The deconvoluted XPS spectra confirms oxidation states and chemical compositions of MOFNPG2. The CV profile identifies maximum oxidation for MOFNPG2, revealing EDLC / pseudocapacitance contribution and exhibiting higher specific capacitance of 854 F g−1 @ 1 A g−1. The Full-Cell Device (FCD) MOFNPG2//rGO registers 175 F g−1 @ 1 A g−1 and energy density 79 Wh kg−1. The Resr is lower (0.19 Ω cm−2) for FCD which improvises electrode-electrolyte kinetics and results in enhanced conductivity for high energy density supercapacitor applications. •rGO infused MOF based Nickel Phosphate synthesized via microwave technique.•SEM morphology shows rectangular crystalline geometry for 50 mg rGO dispersoid MOFNP (MOFNPG2).•The CV and GCD reveals that higher specific capacitance of 854 F g−1 @ 1 A g−1 for MOFNPG2.•The Full-Cell Device (FCD) MOFNPG2//rGO registers higher energy density 79 Wh kg−1.•FCD exhibits 88 % of its capacity retention up to 10,000 cycles at 20 A g−1.
ISSN:2352-152X
DOI:10.1016/j.est.2024.114140