Efisiensi Counter Electrode Dengan Pengurangan Pemakaian Platina Menggunakan Komposit Bahan Ramah Lingkungan Grafin Dan Carbon Nanotubes Untuk Aplikasi Dye Sensitized Solar Cells

Indonesian Journal of Applied Physics Pub Date : 2022-11-01 DOI:10.13057/ijap.v12i2.61710

F. Fatiatun, Intan Masruroh Swasti

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Abstract

Dye sensitized solar cells (DSSCs) are the most popular solar cells in the third generation. DSSCs have been widely developed as an alternative to silicon-based solar cells because of its easy manufacturing process, high efficiency, easy production costs, and environmental friendliness. Graphene and carbon nanotubes (CNTs) are promising materials to reduce the use of platinum (Pt) in counter electrode (CE) due to their excellent properties, such as thermal, electrical conductivity, and high surface area. One of the derivatives of graphene that is often used is reduced graphene oxide (rGO) which is produced from GO solution by a reduction process. GO was synthesized in an electrolyte containing surfactant by the electrochemical exfoliation method. The specially prepared sodium 1,4-bis(neopentyloxy)-3-(neopentyloxycarbonyl)-1,4-dioxobutane-2-silphonate (TC14) surfactant was used in GO synthesis. The CE thin film of TC14-rGO/CNTs/Pt hybrid shows the highest efficiency values (0.0594%) with Jsc, Voc, and FF of 0.176 mA/cm2, 0.622 V, and 0.464, respectively. This was believed due to the conjugated network in CNTs acts as a connecting cable between the TC14-rGO layers and as a vacancy filler, the high electrical conductivity value and the larger surface area also cause faster electron movement, making these properties important in DSSC performance. The FF value which is also the highest in the TC14-rGO/CNTs/Pt hybrid samples as CE is also influenced by its structure. The high surface area of CNTs and TC14-rGO in the TC14-rGO/CNTs/Pt hybrid samples exhibited important properties for generating dye after electron injection and led to a faster route of electron regulation during DSSCs processing. These findings indicate that Pt composited with environmentally friendly and inexpensive materials such as T14-rGO and CNTs can improve CE performance in DSSCs applications. Based on this, this research can be used as a basis for further research on the fabrication of carbon-based CE

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用于染料敏化太阳能电池的图形和碳纳米管多物质复合物铂还原高效反电极

染料敏化太阳能电池（DSSC）是第三代最受欢迎的太阳能电池。DSSC由于其制造工艺简单、效率高、生产成本低和环境友好，已被广泛开发为硅基太阳能电池的替代品。石墨烯和碳纳米管（CNTs）由于其优异的性能，如热、导电性和高表面积，是减少铂（Pt）在对电极（CE）中使用的有前途的材料。石墨烯的衍生物之一是还原氧化石墨烯（rGO），它是由GO溶液通过还原过程产生的。采用电化学剥离法在含有表面活性剂的电解质中合成了GO。采用特制的1，4-双（新戊氧基）-3-（新戊氧基羰基）-1，4-二氧代丁烷-2-硅烷基甲酸钠（TC14）表面活性剂合成GO。TC14-rGO/CNTs/Pt杂化物的CE薄膜显示出最高的效率值（0.0594%），Jsc、Voc和FF分别为0.176mA/cm2、0.622V和0.464。这被认为是由于CNT中的共轭网络充当TC14-rGO层之间的连接电缆和空位填充物，高电导率值和较大的表面积也导致更快的电子运动，使得这些特性在DSSC性能中很重要。在作为CE的TC14 rGO/CNTs/Pt杂化样品中也是最高的FF值也受到其结构的影响。TC14-rGO/CNTs/Pt杂化样品中的CNT和TC14-rGO的高表面积表现出在电子注入后产生染料的重要性质，并导致DSSC处理过程中电子调节的更快途径。这些发现表明，Pt与环境友好且廉价的材料（如T14-rGO和CNTs）复合可以提高DSSC应用中的CE性能。基于此，本研究可作为进一步研究碳基CE制备的基础

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来源期刊

Indonesian Journal of Applied Physics

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审稿时长

12 weeks