Growth and physical-chemical characterization of manganese oxide and graphene-manganese oxide films for potential applications in energy store devices
The need for progress in the development of energy supply devices such as batteries and large capacitors has led to the improvement and innovation of these devices so that they can store energy efficiently, and additionally, they must be small, light, with low production costs, and friendly to the e...
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Published in | Results in materials Vol. 22; p. 100574 |
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Main Authors | , , , , |
Format | Journal Article |
Language | English |
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01.06.2024
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Abstract | The need for progress in the development of energy supply devices such as batteries and large capacitors has led to the improvement and innovation of these devices so that they can store energy efficiently, and additionally, they must be small, light, with low production costs, and friendly to the environment. For these reasons, in this investigation results of the characterization of physical and chemical behaviors of graphene-manganese oxide and copper and manganese oxide-copper systems are studied. The graphene was synthesized through the electrochemical exfoliation technique and deposited as a film on common glass and silicon substrates via the spray technique, and over this film, Mn2O3 films were deposited through spin coating. The Raman results showed the presence of peaks D and G, located at 1534 and 1597 cm−1, respectively. XPS analysis demonstrated that the graphene is made up of three layers. TEM studies determined that the graphene is polycrystalline, and XRD established the manganese oxide coatings’ growth along the (222) and (440) planes of Mn2O3. The optical behavior indicated that the absorbance of the graphene-Mn2O3 system decreases the energy gap in 0.8 eV concerning Mn2O3 films. The voltage-current measurements suggest that the density current in the discharge process of the Mn2O3–Cu electrode system was improved approximately 3-fold with the graphene-Mn2O3–Cu electrode system. The obtained results conclude that the addition of graphene to manganese oxide coatings increases their electrochemical performance, so graphene-manganese oxide could be used in energy storage devices. |
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AbstractList | The need for progress in the development of energy supply devices such as batteries and large capacitors has led to the improvement and innovation of these devices so that they can store energy efficiently, and additionally, they must be small, light, with low production costs, and friendly to the environment. For these reasons, in this investigation results of the characterization of physical and chemical behaviors of graphene-manganese oxide and copper and manganese oxide-copper systems are studied. The graphene was synthesized through the electrochemical exfoliation technique and deposited as a film on common glass and silicon substrates via the spray technique, and over this film, Mn2O3 films were deposited through spin coating. The Raman results showed the presence of peaks D and G, located at 1534 and 1597 cm−1, respectively. XPS analysis demonstrated that the graphene is made up of three layers. TEM studies determined that the graphene is polycrystalline, and XRD established the manganese oxide coatings’ growth along the (222) and (440) planes of Mn2O3. The optical behavior indicated that the absorbance of the graphene-Mn2O3 system decreases the energy gap in 0.8 eV concerning Mn2O3 films. The voltage-current measurements suggest that the density current in the discharge process of the Mn2O3–Cu electrode system was improved approximately 3-fold with the graphene-Mn2O3–Cu electrode system. The obtained results conclude that the addition of graphene to manganese oxide coatings increases their electrochemical performance, so graphene-manganese oxide could be used in energy storage devices. |
ArticleNumber | 100574 |
Author | Suarez, O.J. Olaya, J.J. Moreno-Aldana, L.C. Alfonso, J.E. Arévalo, J.A. |
Author_xml | – sequence: 1 givenname: J.A. surname: Arévalo fullname: Arévalo, J.A. email: jharevalor@unal.edu.co organization: Grupo de Ciencia de Materiales y Superficies, Departamento de Física, Universidad Nacional de Colombia, Av. Cra. 30 # 45-03, Bogotá D.C, Colombia – sequence: 2 givenname: J.E. surname: Alfonso fullname: Alfonso, J.E. email: jealfonsoo@unal.edu.co organization: Grupo de Ciencia de Materiales y Superficies, Departamento de Física, Universidad Nacional de Colombia, Av. Cra. 30 # 45-03, Bogotá D.C, Colombia – sequence: 3 givenname: O.J. surname: Suarez fullname: Suarez, O.J. email: ojsuarezg@unal.edu.co organization: Departamento de Ingeniería Industrial y Sistemas, Universidad Nacional de Colombia, Carrera 30 No 45 – 03, Bogotá, Colombia – sequence: 4 givenname: J.J. surname: Olaya fullname: Olaya, J.J. email: jjolayaf@unal.edu.co organization: Departamento de Ingeniería Mecánica y Mecatrónica, Universidad Nacional de Colombia, Av. Cra. 30 # 45-03, Bogotá D.C, Colombia – sequence: 5 givenname: L.C. surname: Moreno-Aldana fullname: Moreno-Aldana, L.C. email: lcmorenoa@unal.edu.co organization: Laboratorio de Aplicaciones Fisicoquímicas del Estado Sólido, Departamento de Química, Universidad Nacional de Colombia, Carrera 30 No 45 – 03, Bogotá, Colombia |
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Keywords | Electrode Films Graphene Manganese oxide Chemical exfoliation Electrochemical |
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