RTV Silicone Membranes as Agents to Confine the Liquid Components in Dye Sensitized Solar Cells

A. Bartolotta, G. Calogero, C. Crupi, G. Marco
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引用次数: 1

Abstract

Selected silicone membranes are investigated in order to find attractive multifunctional materials as liquid confining flexible agents with good heat resistance as well as low affinity towards the chemical specimens commonly used in dye sensitized solar cells (DSSC). In fact, the leakage and/or volatilization of liquid components inside DSSC remains one of the most critical obstacles in the progress of this technology from laboratory scale to large area applications. Dynamic mechanical spectroscopic, differential scanning calorimetric, and thermogravimetric analyses on dry membranes were performed in order to investigate their mechanical properties and their thermal stability. By a further comparative study between the equilibrium uptake and the adsorption-desorption process of a nitrile based solution, useful indications about the ability of these networks to encapsulate the liquid mixture were inferred. Moreover, a rough evaluation of porosity was also carried out, giving results which are in agreement with surface morphology observed by scanning electron microscopy and atomic force microscopy. In the light of the results obtained by the different experimental techniques the confinement capability of these membranes towards the liquid components inside a DSSC is discussed.
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RTV有机硅膜作为染料敏化太阳能电池中液体组分的限制剂
为了寻找具有良好耐热性和对染料敏化太阳能电池(DSSC)中常用的化学样品亲和力低的有吸引力的多功能材料,选择了有机硅膜作为液体限制柔性剂。事实上,DSSC内部液体成分的泄漏和/或挥发仍然是该技术从实验室规模发展到大面积应用的最关键障碍之一。对干膜进行了动态力学光谱、差示扫描量热和热重分析,以研究其力学性能和热稳定性。通过对腈基溶液的平衡吸收和吸附-解吸过程的进一步比较研究,推断出这些网络封装液体混合物的能力的有用指示。此外,还进行了孔隙度的粗略评估,得出的结果与扫描电镜和原子力显微镜观察到的表面形貌一致。根据不同实验技术得到的结果,讨论了这些膜对DSSC内液体组分的约束能力。
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