The gas-sensing properties of sintered bismuth iron molybdate catalyst

Sensors and Actuators Pub Date : 1989-09-15 DOI:10.1016/0250-6874(89)87085-4

W.M. Sears

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引用次数: 40

Abstract

Sintered pellets of bismuth iron molybdate catalysts act as sensors of reducing vapors by bulk conductivity changes mediated by oxygen vacancy donors. These donors, originating from the direct reduction of the semi-conductor catalyst, are highly mobile and can quickly diffuse through the sample, thereby having a direct effect on the electronic carrier density throughout. In air the vacancies are reoxidized into lattice oxygen. The sensitivity and selectivity of pellets embedded with gold wire contacts are examined for a wide number of gases and vapors and the effect of high-temperature sintering (calcining) as well as the effects of platinum doping is examined. Mechanisms are proposed to explain the power law dependencies of the sensor conductivity versus concentration and the response time versus concentration. Direct measurements are made on the diffusion of oxygen vacancies under voltage and thermal-induced drift. Bismuth iron molybdate is shown to be almost completely immune to the effects of water vapor. The pellets show great long-term stability of sensor response under most operating conditions, as well as great sensitivity to very small amounts of organic vapor (less than 1 ppm).

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烧结钼酸铋铁催化剂的气敏性能

钼酸铋铁催化剂烧结球团通过氧空位供体介导的体积电导率变化作为还原性蒸汽的传感器。这些供体源于半导体催化剂的直接还原，具有高度的流动性，可以快速扩散通过样品，从而对整个电子载流子密度产生直接影响。在空气中，空位被再氧化成晶格氧。研究了嵌入金丝触点的球团对多种气体和蒸汽的敏感性和选择性，并研究了高温烧结(煅烧)的影响以及铂掺杂的影响。提出了解释传感器电导率与浓度和响应时间与浓度的幂律依赖关系的机制。对氧空位在电压和热致漂移作用下的扩散进行了直接测量。钼酸铋铁几乎完全不受水蒸气的影响。在大多数操作条件下，颗粒显示出传感器响应的长期稳定性，以及对极少量有机蒸汽(小于1ppm)的灵敏度。

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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Sensors and Actuators

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