SUPPORT EFFECT ON THE STRUCTURE AND PROPERTIES OF MANGANESE OXIDE ELECTRODE MATERIALS

The composite electrode material of manganese oxide supported on poly glucose (PGS) was prepared by using KMnO4 as manganese source. In order to study the influence of the support on the structure and properties of the composite electrode materials, the changes of the composition of the composite el...

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Main Authors: Huatao Wu, Yongjun Han, Li Wang, Lihui Zhang, Xiang Wang
Format: Article
Language:English
Published: Sociedade Brasileira de Química
Series:Química Nova
Subjects:
Online Access:http://www.scielo.br/scielo.php?script=sci_arttext&pid=S0100-40422017001001172&lng=en&tlng=en
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spelling doaj-2ab28309799b431597b1e21e2680101b2020-11-25T01:54:32ZengSociedade Brasileira de QuímicaQuímica Nova1678-706440101172117910.21577/0100-4042.20170130S0100-40422017001001172SUPPORT EFFECT ON THE STRUCTURE AND PROPERTIES OF MANGANESE OXIDE ELECTRODE MATERIALSHuatao WuYongjun HanLi WangLihui ZhangXiang WangThe composite electrode material of manganese oxide supported on poly glucose (PGS) was prepared by using KMnO4 as manganese source. In order to study the influence of the support on the structure and properties of the composite electrode materials, the changes of the composition of the composite electrode materials were investigated in different weight ratio of KMnO4/PGS (3:1, 3:3, 3:5, 3:7, 3:9). The characterization results of XRD, Raman special and XPS indicated the composition of manganese oxides was greatly influenced by the content of PGS. When the PGS content is lower, the composition of manganese oxide in hybrid material is single-component oxide (MnOOH or Mn3O4). With the increasing PGS content, a mixture of Mn3O4 and MnCO3 was observed, furthermore proportion of MnCO3 in mixture also increased, and up to higher PGS content (KMnO4/PGS=3:9), single-component MnCO3 was founded on hybrid material. In addition, the change of composition of hybrid materials also led to an obvious difference in electrochemical performance. With the increase of PGS content, the specific capacitance of hybrid materials increases firstly, and reaches the maximum with the weight ratio of KMnO4/PGS equal to 3:3, and then gradually decreases. This was attributed to the higher electrochemical performance of Mn3O4 than that of MnOOH and MnCO3.http://www.scielo.br/scielo.php?script=sci_arttext&pid=S0100-40422017001001172&lng=en&tlng=enmanganese oxidessupport effectspoly glucosecomposite electrode materialelectrochemistry
collection DOAJ
language English
format Article
sources DOAJ
author Huatao Wu
Yongjun Han
Li Wang
Lihui Zhang
Xiang Wang
spellingShingle Huatao Wu
Yongjun Han
Li Wang
Lihui Zhang
Xiang Wang
SUPPORT EFFECT ON THE STRUCTURE AND PROPERTIES OF MANGANESE OXIDE ELECTRODE MATERIALS
Química Nova
manganese oxides
support effects
poly glucose
composite electrode material
electrochemistry
author_facet Huatao Wu
Yongjun Han
Li Wang
Lihui Zhang
Xiang Wang
author_sort Huatao Wu
title SUPPORT EFFECT ON THE STRUCTURE AND PROPERTIES OF MANGANESE OXIDE ELECTRODE MATERIALS
title_short SUPPORT EFFECT ON THE STRUCTURE AND PROPERTIES OF MANGANESE OXIDE ELECTRODE MATERIALS
title_full SUPPORT EFFECT ON THE STRUCTURE AND PROPERTIES OF MANGANESE OXIDE ELECTRODE MATERIALS
title_fullStr SUPPORT EFFECT ON THE STRUCTURE AND PROPERTIES OF MANGANESE OXIDE ELECTRODE MATERIALS
title_full_unstemmed SUPPORT EFFECT ON THE STRUCTURE AND PROPERTIES OF MANGANESE OXIDE ELECTRODE MATERIALS
title_sort support effect on the structure and properties of manganese oxide electrode materials
publisher Sociedade Brasileira de Química
series Química Nova
issn 1678-7064
description The composite electrode material of manganese oxide supported on poly glucose (PGS) was prepared by using KMnO4 as manganese source. In order to study the influence of the support on the structure and properties of the composite electrode materials, the changes of the composition of the composite electrode materials were investigated in different weight ratio of KMnO4/PGS (3:1, 3:3, 3:5, 3:7, 3:9). The characterization results of XRD, Raman special and XPS indicated the composition of manganese oxides was greatly influenced by the content of PGS. When the PGS content is lower, the composition of manganese oxide in hybrid material is single-component oxide (MnOOH or Mn3O4). With the increasing PGS content, a mixture of Mn3O4 and MnCO3 was observed, furthermore proportion of MnCO3 in mixture also increased, and up to higher PGS content (KMnO4/PGS=3:9), single-component MnCO3 was founded on hybrid material. In addition, the change of composition of hybrid materials also led to an obvious difference in electrochemical performance. With the increase of PGS content, the specific capacitance of hybrid materials increases firstly, and reaches the maximum with the weight ratio of KMnO4/PGS equal to 3:3, and then gradually decreases. This was attributed to the higher electrochemical performance of Mn3O4 than that of MnOOH and MnCO3.
topic manganese oxides
support effects
poly glucose
composite electrode material
electrochemistry
url http://www.scielo.br/scielo.php?script=sci_arttext&pid=S0100-40422017001001172&lng=en&tlng=en
work_keys_str_mv AT huataowu supporteffectonthestructureandpropertiesofmanganeseoxideelectrodematerials
AT yongjunhan supporteffectonthestructureandpropertiesofmanganeseoxideelectrodematerials
AT liwang supporteffectonthestructureandpropertiesofmanganeseoxideelectrodematerials
AT lihuizhang supporteffectonthestructureandpropertiesofmanganeseoxideelectrodematerials
AT xiangwang supporteffectonthestructureandpropertiesofmanganeseoxideelectrodematerials
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