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Conductivity and Thermal Behaviour of Sulfonated ABS Membranes for Fuel Cell Applications

机译：用于燃料电池的磺化ABS膜的电导率和热行为

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In the present work, proton conductive membranes based on poly(acrylonitrile-co-butadiene-co-styrene) (ABS) were obtained by sulfonation. The sulfonic acid ABS (ABS-SO_3H) membranes exhibited thermal stability near 370 ℃, similarly to the ABS original polymer. DSC curves of the sulfonic acid membranes showed two glass transition temperatures, associated with thermal processes taking place at the polymer main chain and at the hydrophilic domains. These hydrated regions are formed by water molecules and dissociated sulfonic acid groups [-SO_3~-(H_2O)_nH~+], as pointed out in other works. Electrochemical impedance spectroscopy evidenced the conductive-capacitive behaviour of ABS-SO_3H membranes, which exhibited an Ahrrenius-like conductivity dependence with temperature, from 7.6×10~(-6) Ω~(-1)'cm~(-1) at 20℃and 1.4×10~(-5)Ω~(-1)cm~(-1) at 80℃(ABS-SO_3H 2:1).

机译：在本工作中，通过磺化获得了基于聚（丙烯腈-共-丁二烯-共-苯乙烯）（ABS）的质子传导膜。磺酸ABS（ABS-SO_3H）膜在370℃附近表现出热稳定性，与ABS原始聚合物相似。磺酸膜的DSC曲线显示了两个玻璃化转变温度，这与在聚合物主链和亲水域发生的热过程有关。这些水合区域是由水分子和离解的磺酸基团[-SO_3〜-（H_2O）_nH〜+]形成的，正如其他工作所指出的那样。电化学阻抗谱证明了ABS-SO_3H膜的电导-电容行为，该膜在20时从7.6×10〜（-6）Ω〜（-1）'cm〜（-1）表现出与温度呈阿伦尼乌斯样电导率依赖性。于80℃（ABS-SO_3H 2：1）于1.4℃和1.4×10〜（-5）Ω〜（-1）cm〜（-1）处。

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来源
《Proton exchange membrane fuel cells 9》|2009年|881-889|共9页
会议地点 Vienna(AT);Vienna(AT);Vienna(AT)
作者
C. M. D. da Silva; A. L.A. Silva; R. P. Pereira; A. M. Rocco;
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作者单位

Grupo de Materiais Condutores e Energia, Universidade Federal do Rio de Janeiro, Escola de Quimica, Rio de Janeiro, RJ, Brasil;

Grupo de Materiais Condutores e Energia, Universidade Federal do Rio de Janeiro, Escola de Quimica, Rio de Janeiro, RJ, Brasil;

rnGrupo de Materiais Condutores e Energia, Universidade Estadual da Zona Oeste, Campo Grande, Rio de Janeiro, RJ, Brasil;

rnGrupo de Materiais Condutores e Energia, Universidade Federal do Rio de Janeiro, Escola de Quimica, Rio de Janeiro, RJ, Brasil;

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正文语种 eng
中图分类化学电源、电池、燃料电池;
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Conductivity and Thermal Behaviour of Sulfonated ABS Membranes for Fuel Cell Applications

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