Synthesis, Characterization of Ag2s from AgCl Waste of Argentometry Titration with Heating Temperature Variations and Its Application as a Temperature Sensor Based on Negative Temperature Coefficient (NTC)

Jurnal Kimia Sains dan Aplikasi Pub Date : 2022-09-17 DOI:10.14710/jksa.25.8.292-299

G. Gunawan, Sarahtrinita Glikeria Like Megawati, N. Prasetya, R. Wijaya

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Abstract

Synthesis of Ag2S from AgCl waste of argentometric titration with heating temperature variations as a temperature sensor has been done. This study aims to synthesize Ag2S and examine the effect of heating temperature on crystal quality and electrical characteristics as a temperature sensor based on the Negative Temperature Coefficient (NTC). Ag2S synthesis was carried out by precipitation in a water bath with various heating temperatures of 40°C, 60°C, and 80°C. The success of the synthesis was confirmed by X-Ray Diffraction (XRD) with a typical peak of 2θ from Ag2S standard at 29.07°, 31.60°, 36.97°, 37.81°, and the highest crystallinity was obtained at a heating temperature of 60°C. Meanwhile, UV-Vis Diffuse Reflectance Spectroscopy (DRS UV-Vis) showed a band gap corresponding to Ag2S (0.9-1.05 eV). Furthermore, the Ag2S powder was made into pellets and applied as a temperature sensor. Then the resistance value and the electrical characteristics of the resulting sensor were measured. The best resistance was obtained from Ag2S synthesized at a temperature of 60°C with constant (B) and sensitivity (α) values of 2974 K and −3.35%, respectively. This indicated that Ag2S had been successfully synthesized, and the best sensor quality was obtained from Ag2S heated at a temperature of 60°C.

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AgCl废料中Ag2s的合成、表征加热温度变化滴定法及其作为负温度系数温度传感器的应用

以加热温度变化的AgCl废料为温度传感器，用银量滴定法合成了Ag2S。本研究旨在合成Ag2S，并作为一种基于负温度系数（NTC）的温度传感器，研究加热温度对晶体质量和电学特性的影响。Ag2S的合成是通过在40°C、60°C和80°C的不同加热温度的水浴中沉淀进行的。X射线衍射（XRD）证实了合成的成功，在29.07°、31.60°、36.97°、37.81°处，Ag2S标准品的典型峰值为2θ，在60°C的加热温度下获得了最高结晶度。同时，UV-Vis漫反射光谱（DRS UV-Vis）显示出对应于Ag2S的带隙（0.9-1.05eV）。此外，将Ag2S粉末制成颗粒并用作温度传感器。然后测量所得传感器的电阻值和电特性。在60°C的温度下合成的Ag2S获得了最佳的电阻，常数（B）和灵敏度（α）分别为2974K和−3.35%。这表明Ag2S已经成功合成，并且在60°C的温度下加热的Ag2S获得了最佳的传感器质量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Jurnal Kimia Sains dan Aplikasi

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审稿时长

17 weeks