Sensitivity of Cadmium Sulfide under the Influence of Both Substrate Temperature and Gas Operation

E. Hassan, Zaid Saud Razzaq, Huda Ashur Shati Qutbi, S. Chiad, N. Habubi, K. Abass
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Abstract

The importance of this research is to study the effect of changing the temperature at the same time on each of the prepared samples and during the gas sensing processes, the effects of substrate temperature Ts were investigated after precipitation by the microstructural and optical characteristics of cadmium sulfide using thermal spraying method with different temperatures of (300, 400, and 500) °C. The structural investigations of these films were studied, showing that the increases in substrate temperature were shown cubic and hexagonal phases according to ICDD card no. (21-0929) and (43-0989). The dramatic change occurred at 500 °C in changing the phase from hexagonal to a cubic structure. XRD exhibits a dominant plane at (200) for different substrate temperatures. Optical transmittance, absorption coefficient, and energy gap values were calculated by UV/VIS spectrophotometer. These results showed that the band gap values decreased with increasing substrate temperature. The gas sensitivity was tested for NO2 gas at several working temperatures from 175 °C to 250 °C, and various gas concentrations from 150 ppm to 200 ppm and found that the sensitivity increase with increasing both the operating temperature and gas concentration for a Ts at 500 °C which offer also the best crystallization the best sensitivity at an operating temperature of 175 °C is 75% at a gas concentration of 150 ppm.
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硫化镉在衬底温度和气体操作影响下的灵敏度
本研究的重要性在于研究同时改变温度对每个制备的样品以及在气体传感过程中的影响,采用热喷涂法,在(300、400和500)°C的不同温度下,通过硫化镉的微观结构和光学特性,研究了沉淀后衬底温度Ts的影响。对这些膜的结构研究表明,根据ICDD卡编号(21-0929)和(43-0989),衬底温度的增加显示为立方相和六方相。在500°C时,相从六方结构变为立方结构,发生了剧烈变化。对于不同的衬底温度,XRD在(200)处显示出主平面。通过紫外可见分光光度计计算了光透射率、吸收系数和能隙值。这些结果表明,带隙值随着衬底温度的升高而减小。在175°C至250°C的几个工作温度下对NO2气体进行了气体敏感性测试,以及从150ppm到200ppm的各种气体浓度,并且发现灵敏度随着操作温度和气体浓度的增加而增加,对于在500°C下也提供最佳结晶的Ts,在175°C的操作温度下在150ppm的气体浓度下的最佳灵敏度为75%。
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来源期刊
Nano Biomedicine and Engineering
Nano Biomedicine and Engineering Engineering-Biomedical Engineering
CiteScore
3.00
自引率
0.00%
发文量
9
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