P.T. Moseley scite author profile

The detection and monitoring of gases with solid state sensors has become a well established practice. Three major types of solid state gas sensor are already in widespread use and a number of other designs currently in development may have the potential for commercial exploitation in the future. The established sensor types are reviewed here and a brief description is given of some of the emergent technologies.

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Progress in the development of semiconducting metal oxide gas sensors: a review

Moseley¹

2017

Meas. Sci. Technol.

248

118

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Since the first suggestion, during the 1950s, that high-surface-area metal oxides could be used as conductometric gas sensors enormous efforts have been made to enhance both the selectivity and the sensitivity of such devices, and to reduce their operational power requirements. This development has involved the exploration of response mechanisms, the selection of the most appropriate oxide compositions, the fabrication of two-phase 'hetero-structures', the addition of metallic catalyst particles and the optimisation of the manner in which the materials are presented to the gas-the structure and the nanostructure of the sensing elements. Far more of the scientific literature has been devoted to seeking such improvements in metal oxide gas sensors than has been directed at all other solid-state gas sensors together. Recent progress in the research and development of metal oxide gas sensor technology is surveyed in this invited review. The advances that have been made are quite spectacular and the results of individual pieces of work are drawn together here so that trends can be seen. Emerging features include: the significance of n-type/p-type switching, the enhancement of sensing performance of materials through the incorporation of secondary components and the advantages of interrogating sensors with alternating current rather than direct current.

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Materials selection for semiconductor gas sensors

Moseley¹

1992

Sensors and Actuators B: Chemical

219

100

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The role of carbon in valve-regulated lead–acid battery technology

Moseley

Nelson

Hollenkamp

2006

Journal of Power Sources

140

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P.T. Moseley

Hydrogen storage by carbon materials

Solid state gas sensors

Progress in the development of semiconducting metal oxide gas sensors: a review

Materials selection for semiconductor gas sensors

The role of carbon in valve-regulated lead–acid battery technology

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