One‐step synthesis of nitrogen‐doped graphene powders and application of them as high‐performance symmetrical coin cell supercapacitors in different aqueous electrolyte

Summary In this study, symmetric supercapacitors in the form of coin cells were produced by using N‐doped graphene powders as electrode components. Nitrogen‐doped graphene powders were prepared by Yucel's Method with cyclic voltammetry at different potential ranges for selective modification of...

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Published inInternational journal of energy research Vol. 46; no. 6; pp. 7348 - 7373
Main Authors Arvas, Melih Besir, Karatepe, Nilgün, Gencten, Metin, Sahin, Yucel
Format Journal Article
LanguageEnglish
Published Chichester, UK John Wiley & Sons, Inc 01.05.2022
Hindawi Limited
Subjects
2D materials
Analytical methods
Aqueous electrolytes
Capacitance
cyclic voltammetry
Electrochemistry
Electrolytic cells
Electron microscopy
Functional groups
Graphene
Nitrogen
N‐doped graphene powders
Photoelectron spectroscopy
Photoelectrons
Raman spectroscopy
Scanning electron microscopy
supercapacitor
Supercapacitors
Yucel's method
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Abstract Summary In this study, symmetric supercapacitors in the form of coin cells were produced by using N‐doped graphene powders as electrode components. Nitrogen‐doped graphene powders were prepared by Yucel's Method with cyclic voltammetry at different potential ranges for selective modification of the powders with functional groups. Electrochemical, spectroscopic, and microscopic characterizations of N‐doped graphene powders were carried out. The formation of graphene layers was supported by scanning electron microscopy and Raman analysis. Functional groups formed on the surfaces of N‐doped graphene powders were determined by X‐ray photoelectron spectroscopy. Specific capacitances of symmetric supercapacitors prepared with N‐doped graphene powders were determined by cyclic charge‐discharge tests. The highest specific capacitance, energy and power values were determined as 235.3 F.g−1, 158.2 Wh.kg−1 and 1760 W.kg−1, respectively. Nitrogen‐doped graphene powders were prepared by Yucel's Method with cyclic voltammetry at different potential ranges for selective modification of the powders with functional groups. The powders were used for production of the electrode materials of symmetric supercapacitors. The highest specific capacitance, energy and power values were determined as 235.3 F.g−1, 158.2 Wh.kg−1 and 1760 W.kg−1, respectively.
AbstractList In this study, symmetric supercapacitors in the form of coin cells were produced by using N‐doped graphene powders as electrode components. Nitrogen‐doped graphene powders were prepared by Yucel's Method with cyclic voltammetry at different potential ranges for selective modification of the powders with functional groups. Electrochemical, spectroscopic, and microscopic characterizations of N‐doped graphene powders were carried out. The formation of graphene layers was supported by scanning electron microscopy and Raman analysis. Functional groups formed on the surfaces of N‐doped graphene powders were determined by X‐ray photoelectron spectroscopy. Specific capacitances of symmetric supercapacitors prepared with N‐doped graphene powders were determined by cyclic charge‐discharge tests. The highest specific capacitance, energy and power values were determined as 235.3 F.g−1, 158.2 Wh.kg−1 and 1760 W.kg−1, respectively.
Summary In this study, symmetric supercapacitors in the form of coin cells were produced by using N‐doped graphene powders as electrode components. Nitrogen‐doped graphene powders were prepared by Yucel's Method with cyclic voltammetry at different potential ranges for selective modification of the powders with functional groups. Electrochemical, spectroscopic, and microscopic characterizations of N‐doped graphene powders were carried out. The formation of graphene layers was supported by scanning electron microscopy and Raman analysis. Functional groups formed on the surfaces of N‐doped graphene powders were determined by X‐ray photoelectron spectroscopy. Specific capacitances of symmetric supercapacitors prepared with N‐doped graphene powders were determined by cyclic charge‐discharge tests. The highest specific capacitance, energy and power values were determined as 235.3 F.g−1, 158.2 Wh.kg−1 and 1760 W.kg−1, respectively. Nitrogen‐doped graphene powders were prepared by Yucel's Method with cyclic voltammetry at different potential ranges for selective modification of the powders with functional groups. The powders were used for production of the electrode materials of symmetric supercapacitors. The highest specific capacitance, energy and power values were determined as 235.3 F.g−1, 158.2 Wh.kg−1 and 1760 W.kg−1, respectively.
Author Sahin, Yucel
Karatepe, Nilgün
Arvas, Melih Besir
Gencten, Metin
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  surname: Arvas
  fullname: Arvas, Melih Besir
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  orcidid: 0000-0002-7392-4103
  surname: Karatepe
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  orcidid: 0000-0001-8590-4073
  surname: Sahin
  fullname: Sahin, Yucel
  email: yucelsahin06@gmail.com
  organization: Yildiz Technical University
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Snippet Summary In this study, symmetric supercapacitors in the form of coin cells were produced by using N‐doped graphene powders as electrode components....
In this study, symmetric supercapacitors in the form of coin cells were produced by using N‐doped graphene powders as electrode components. Nitrogen‐doped...
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SubjectTerms 2D materials
Analytical methods
Aqueous electrolytes
Capacitance
cyclic voltammetry
Electrochemistry
Electrolytic cells
Electron microscopy
Functional groups
Graphene
Nitrogen
N‐doped graphene powders
Photoelectron spectroscopy
Photoelectrons
Raman spectroscopy
Scanning electron microscopy
supercapacitor
Supercapacitors
Yucel's method
Title One‐step synthesis of nitrogen‐doped graphene powders and application of them as high‐performance symmetrical coin cell supercapacitors in different aqueous electrolyte
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fer.7642
https://www.proquest.com/docview/2652866664
Volume 46
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