☆ 4.6 Review

Brief Review on High-Temperature Electrochemical Hydrogen Sensors

CATALYSTS (2022)

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Future of Hydrogen as an Alternative Fuel for Next-Generation Industrial Applications; Challenges and Expected Opportunities

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Summary: A general increase in greenhouse gas emissions caused by population growth and the demand for clean energy and industrial outputs has led to a rise in environmental concerns. Countries worldwide, both advanced and emerging, are searching for fossil fuel and petroleum resources to support various sectors such as aviation, electric utilities, and consumer processing. However, there is a growing tendency to address these challenging concerns and prioritize the goals set out in the Paris Agreement by utilizing emerging technological advances in clean energy. Hydrogen is expected to play a crucial role in future energy development and manufacturing processes, and this paper provides an overview of recent advancements in hydrogen technologies, including fuel refining, hydrocarbon processing, materials manufacturing, pharmaceuticals, aircraft construction, and electronics. It also discusses potential innovations in terms of scientific advancements, green raw materials production, exploration opportunities, and renewable resource integration. Additionally, this article explores the socioeconomic implications of hydrogen as a green resource.

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Hydrogen sensing of the mixed-potential-type MnWO4/YSZ/Pt sensor

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Stabilized zirconia-based sensor utilizing SnO2-based sensing electrode with an integrated Cr2O3 catalyst layer for sensitive and selective detection of hydrogen

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Selective hydrogen detection at high temperature by using yttria-stabilized zirconia-based sensor with coupled metal-oxide-based sensing electrodes

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Development and testing of a miniaturized hydrogen safety sensor prototype

Praveen K. Sekhar et al.

SENSORS AND ACTUATORS B-CHEMICAL (2010)

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Review Electrochemistry

Solid-state potentiometric gas sensors-current status and future trends

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Electrode materials for potentiometric hydrogen sensors

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Characteristics of novel BaZr0.4Ce0.4In0.2O3 proton conducting ceramics and their application to hydrogen sensors

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