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Temperature Gradient Effect on Gas Discrimination Power of a Metal-Oxide Thin-Film Sensor Microarray

机译：温度梯度对金属氧化物薄膜传感器微阵列气体分辨能力的影响

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摘要

The paper presents results concerning the effect of spatial inhomogeneous operating temperature on the gas discrimination power of a gas-sensor microarray, with the latter based on a thin SnO2 film employed in the KAMINA electronic nose. Three different temperature distributions over the substrate are discussed: a nearly homogeneous one and two temperature gradients, equal to approx. 3.3 °C/mm and 6.7 °C/mm, applied across the sensor elements (segments) of the array. The gas discrimination power of the microarray is judged by using the Mahalanobis distance in the LDA (Linear Discrimination Analysis) coordinate system between the data clusters obtained by the response of the microarray to four target vapors: ethanol, acetone, propanol and ammonia. It is shown that the application of a temperature gradient increases the gas discrimination power of the microarray by up to 35 %.

机译：本文介绍了有关空间不均匀工作温度对气体传感器微阵列的气体分辨能力的影响的结果，后者基于在KAMINA电子鼻中使用的SnO2薄膜。讨论了基板上三种不同的温度分布：近似均匀的一个和两个温度梯度，大约等于1。跨阵列的传感器元件（段）施加3.3°C / mm和6.7°C / mm。通过使用LDA（线性判别分析）坐标系中的马哈拉诺比斯距离来判断微阵列的气体分辨能力，该距离是通过微阵列对四种目标蒸气（乙醇，丙酮，丙醇和氨）的响应而获得的。结果表明，温度梯度的施加使微阵列的气体识别能力提高了35％。

著录项

期刊名称 Sensors (Basel Switzerland)
作者
Victor V. Sysoev; Ilya Kiselev; Markus Frietsch; Joachim Goschnick;
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作者单位

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年(卷),期 2004(4),4
年度 2004
页码 37–46
总页数 10
原文格式 PDF
正文语种
中图分类
关键词
Electronic nose gas-sensor microarray metal-oxide thin film;

机译：电子鼻;气体传感器微阵列;金属氧化物薄膜;

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专利

1. Temperature Gradient Effect on Gas Discrimination Power of a Metal-Oxide Thin-Film Sensor Microarray [J] . Ilya Kiselev, Joachim Goschnick, Markus Frietsch, Sensors . 2004,第4期

机译：温度梯度对金属氧化物薄膜传感器微阵列气体分辨能力的影响
2. Organic light-emitting diode display pixel circuit employing double-gate low-temperature poly-Si thin-film transistor and metal-oxide thin-film transistors [J] . Lee JoonHo, Kim DaeHyun, Yang JooWon, Journal of the Society for Information Display . 2020,第10a12期

机译：有机发光二极管显示像素电路采用双栅极低温多Si薄膜晶体管和金属氧化物薄膜晶体管
3. Multi gas sensors using one nanomaterial, temperature gradient, and machine learning algorithms for discrimination of gases and their concentration [J] . Nguyen Xuan Thai, Tonezzer Matteo, Masera Luca, Analytica chimica acta . 2020,第1期

机译：使用一种纳米材料，温度梯度和机器学习算法的多气体传感器，用于辨别气体及其浓度
4. Channel-Width-Edges-Dominated Degradation in Metal-Oxide Thin-Film Transistors under Positive Gate-Bias and Temperature Stress [C] . Jiapeng Li, Lei Lu, Zhihe Xia, International Conference on Display Technology;Society for Information Display . -1

机译：在正栅极 - 偏压下和温度胁迫下金属氧化物薄膜晶体管中的通道 - 宽度边缘降解
5. Ultra-low Power Room TemperatureMetal Oxide Gas Sensors: A Study in Sensitivity, Selectivity and Reliability [D] . Mills, Steven Christopher. 2017

机译：超低功率室温度氧化氧化物气体传感器：敏感性，选择性和可靠性研究
6. Sensor‐Actuators: 4D Printing Strain Self‐Sensing and Temperature Self‐Sensing Integrated Sensor–Actuator with Bioinspired Gradient Gaps (Adv. Sci. 13/2020) [O] . Daobing Chen, Qingping Liu, Zhiwu Han, 2020

机译：传感器致动器：具有生物启发性梯度间隙的4D打印应变自感和温度自感集成传感器致动器（Adv。Sci。13/2020）
7. Temperature gradient effect on gas discrimination power of a metal-oxide thin-film sensor microarray [O] . Victor V. Sysoev, Ilya Kiselev, Markus Frietsch, 2015

机译：温度梯度效应对金属氧化物薄膜传感器微阵列的气体鉴别能力的影响

Temperature Gradient Effect on Gas Discrimination Power of a Metal-Oxide Thin-Film Sensor Microarray

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