Green Chemistry Approach for One‐Step Synthesis of Iodinated Graphene Material for Supercapacitor Applications-Reference-Cited by-同舟云学术

Green Chemistry Approach for One‐Step Synthesis of Iodinated Graphene Material for Supercapacitor Applications

Published:2024-05-08 Issue:18 Volume:9 Page:
ISSN:2365-6549
Container-title:ChemistrySelect
language:en
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Author:

Kalicharan Alvin¹,Pitchaimani Jayaraman²,Barath Kanna C.³,Rajesh Vudata⁴,Tamtam Mohan Rao⁵,Koutavarapu Ravindranadh⁶,Baby Shakila P.⁷,Ramesh Pugalenthi⁷^ORCID

Affiliation:

1. Department of Chemistry Panimalar Engineering College Chennai, Tamil Nadu 600123 India

2. Department of Chemistry Sri Sai Ram Institute of Technology West Tambaram, Chennai, Tamil Nadu 600044 India

3. Department of Electrical and Electronics Engineering Sri Sairam Engineering College West Tambaram, Chennai, Tamil Nadu 602109 India

4. Department of Chemistry V.R. Siddhartha Engineering College Kanuru, Vijayawada, Andhra Pradesh 520007 India

5. Data Science Lab Department of Information and Communication Engineering College of Mechanical and IT Engineering Yeungnam University Gyeongsan 38541 Republic of Korea

6. Physics Division, Department of Basic Sciences and Humanities GMR Institute of Technology Rajam, Andhra Pradesh 532127 India

7. Department of Biochemistry Department of Chemistry Vivekanandha College of Arts & Sciences for Women (A) Tirchengode, Namakkal, Tamil Nadu 637205 India

Abstract

AbstractIodinated graphene is a promising 2D material with unique physical and chemical characteristics. A new synthesis method that combines iodine intercalation and surface reduction of graphite sheets in a single step was developed. This method uses NaIO4 and m‐CPBA to efficiently incorporate iodine and selectively remove oxygen from the graphene network at room temperature. The presence of iodine moieties in the graphene network was confirmed using various techniques such as XPS photoelectron spectroscopy, HR‐TEM, XRD, FT‐IR, TGA, and Raman spectroscopy. The high iodine content of the material enhanced the d‐spacing and ion mobility of the electrolyte, thereby improving the storage capacity. In addition, the potential of iodinated graphene as an electrode material was investigated through EIS, CV, and GCD using 1 M H2SO4 solution as the electrolyte. The iodinated graphene material exhibited EDL capacitance and demonstrated an impressive specific capacitance of 535.4 F g−1 at a high rate, with a current density of 1 A g−1. Moreover, it exhibited exceptional stability over 5000 cycles. These halogenated graphene derivatives are attractive options for use in supercapacitors.

Publisher

Wiley

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