Electrical, structural and thermal properties of new conductive blends (PANICG) based on polyaniline and cashew gum for organic electronic

Bezerra Amorim Daniel Roger; Bellucci Felipe Silva; Job Aldo EloizoGuimaraes Iran da Silvada Cunha Helder Nunes

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Electrical, structural and thermal properties of new conductive blends (PANICG) based on polyaniline and cashew gum for organic electronic

机译：Electrical, structural and thermal properties of new conductive blends (PANICG) based on polyaniline and cashew gum for organic electronic

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The application of cashew gum, in particular the one which is abundant in northeastern Brazil, remains limited to the foods and pharmaceutics industry. In attempting to obtain further potentialities of the cashew gum (CG), its electrical applicability needs to be explored. To this end, the CG is incorporated in blends based on PANI to make an innovative thin self-sustainable blend films (PACG) comprising PANI and CG. The blend films were fabricated by adding the CG in the synthesis process of the polyaniline, and they were prepared by the standard "casting" method. The film materials were blending in three different weight ratios (99:1), (95:5) and (80:20). We also fabricated the only PANI film. As PANI has its conductivity enhanced by doping process, the blends and PANI films were doped by using sulfuric acid at 0.05 and 0.1 mol L-1 concentrations. The characterization of the films was carried out by FTIR spectroscopy, thermal analyses and electrical measurements. The FTIR results exhibited the occurrence of a weak and secondary chemical interaction between PANI and CG. Once there was no appearance of new bands, the profile of the FTIR curves was maintained for the blends and no significant shifts were identified for the maximum frequency of bands. The thermal analysis measurements revealed alteration at the thermal stability temperature of blends due to the doping process and indicated that the thermal profile of the constituent materials (PANI and CG) was preserved in the blends. The electrical studies showed that the undoped blend films exhibited a low level of conductivity as the amount of gum increased. On the other hand, the doped films reached a high level of conductivity in comparison with PANI films and the more the amount of CG in the blend the more is its conductivity. For PACG with 20% of gum, sigma increased by a factor of 106, whereas in PANI film, it increased by 104 at the 0.1 mol L-1 doped level. These results point to the possibility of using this

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来源
《Journal of thermal analysis and calorimetry》 |2019年第4期|1615-1629|共15页
作者
Bezerra Amorim Daniel Roger; Bellucci Felipe Silva; Job Aldo EloizoGuimaraes Iran da Silvada Cunha Helder Nunes;
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作者单位

Univ Fed Piaui, Minist Petronio Portella Bairro Ininga, Campus Univ, BR-64049550 Teresina, PI, Brazil;

MCTIC, BR-70067900 Brasilia, DF, Brazil;

UNESP Univ Estadual Paulista, FCT, CP 467, BR-19060900 Presidente Prudente, SP, BrazilIFMA Inst Fed Maranhao, Campus Sao Joao Dos Patos, Sao Joao Dos Patos, MA, Brazil;

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正文语种英语
中图分类物理化学（理论化学）、化学物理学;
关键词
Polyaniline; Cashew gum; Conductive blends; Electrical; structural and thermal properties;

Electrical, structural and thermal properties of new conductive blends (PANICG) based on polyaniline and cashew gum for organic electronic

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