Sintesis Grafena Oksida Tereduksi Terdoping Nitrogen Dan Sulfur Dari Amonium Tiosianat Sebagai Elektroda Lawan Pada Sistem Dye Sensitized Solar Cell (DSSC)

Alchemy: Jurnal Penelitian Kimia Pub Date : 2020-02-28 DOI:10.20961/alchemy.16.1.34587.126-139

Sayekti Wahyuningsih, Ari Handono Ramelan, M. Fuad, Q. Hanif

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Abstract

Pada penelitian ini telah berhasil disintesis komposit rGO-NS melalui pendopingan pada material berbasis grafena oksida tereduksi (rGO) dengan penambahan amonium thiosianat sebagai sumber dopan N dan S. Dopan N dan S pada rGO mempengaruhi struktur rGO yang ditunjukkan dengan pergeseran puncak difraktogram pada 2θ=24,97 ( hkl 002). Spektra Fourier transform infrared (FTIR) material rGO-NS memberikan serapan puncak baru dari vibrasi C=N pada daerah 1501-1516 cm -1 dan dari vibrasi C-N serta C-S pada daerah 1130 – 1146 cm -1 . Morfologi rGO-NS berupa lembaran tipis dua Dimensional (2D) bertumpuk dengan jarak antar lapis tertentu. Pengujian I-V measurement menggunakan Keithley 2602A, sistem DSSC dengan material rGO-NS digunakan sebagai bahan elektroda lawan menunjukkan efisiensi terbesar mencapai 0,1268%, dengan peningkatan efisiensi sebanyak 11,32 kali apabila dibandingkan dengan Pt. Synthesis of Reduced Graphene Oxide doped with Nitrogen and Sulfur from Ammonium Thiocyanate as a Counter Electrode in Dye - Sensitized Solar Cell (DSSC) System . In this research, the rGO-NS composite was successfully synthesized through doping on reduced graphene oxide based-materials (rGO) with the addition of ammonium thiocyanate as nitrogen (N) and sulfur (S) source. N and S dopant influence the rGO structure indicated by the peak shifting into 2θ=24.97 (hkl 002). The Fourier transform infrared (FTIR) spectrum of material rGO-NS reveals new bands which correspond to C=N vibration within 1501 – 1516 cm -1 and C–N vibration together with C–S at area between 1130-1146 cm -1 . The morphology of rGO-NS shows that the material consists of many 2 Dimensional (2D) thin layers. The current and voltage (I-V) measurement using Keithley 2602A with material rGO-NS as a counter electrode on DSSC system, demonstrates that the highest efficiency is 0.1268%. This performance is 11.32 times higher compare to the DSSC system with Pt.

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在这个研究已经成功合成复合材料通过pendopingan rGO-NS在基于石墨烯氧化物的废话(rGO)通过增加铵thiosianat作为dopan N和S来源。dopan N和S rGO影响rGO结构对转变的山顶difraktogramθ= 24.97(2日hkl 002)。rtir的红外辐射材料为1501-1516厘米(1英寸)的振动C增值，以及1130 -N地区的振动C-N和C- s提供了新的峰值。rGO-NS是一种二维薄薄片(2D)，有一定的间隔。I-V测试测量使用Keithley 2602A,系统DSSC rGO-NS材料用作电极材料的对手表现出最大的效率达到0,1268% 11,32次相比,效率,增强Reduced的Pt。一个综合体。石墨烯和氮和硫氮doped从酒楼Thiocyanate美国Electrode在柜台·戴伊柴油-敏感细胞(DSSC)系统。在这项研究中，rGO合成的化合物通过去除氧材料石墨烯(rGO)与氮(N)和硫(S)的添加剂而取得成功。N和S dopant影响《rGO vesalius indicated by the peak shifting进2θ= 24 . 97 (hkl 002)。Fourier红外辐射显示，与C相关的新乐队=N振动在1501 - 1516厘米-1厘米和C -N振动与C结合在一起，在1130-1146厘米之间。rGO-NS的形态表明，它是许多二维事物的组成部分。目前和电压(I-V)测量使用Keithley 2602A，在DSSC系统上使用rds材料，证明最有效的方法是0.1268%。这次演出是11点32分最高的与Pt DSSC系统进行比较。

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Alchemy: Jurnal Penelitian Kimia

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