Keyang Hu scite author profile

The research and development of low-powerconsumption and room-temperature hydrogen sensors are of great significance for the safe application of hydrogen energy. Herein, orthorhombic Nb 2 O 5−x nanobelts are prepared through a combined procedure of hydrothermal, ion exchange, and annealing treatment in Ar. The topological transformation process results in the formation of abundant surface defects including chemical defects such as Nb 4+ , oxygen vacancies, and disordered microregions, which lead to the abnormal p-type conducting and hydrogen sensing behavior. Moreover, the orthorhombic Nb 2 O 5−x nanobelts exhibit fast and sensitive room-temperature hydrogen sensing performance, which shows greater advancement than the monoclinic, tetragonal, and hexagonal Nb 2 O 5 one-dimensional (1D) nanostructures. The response time and lowest limit of detection of the as-fabricated room-temperature sensor decrease to 28 s and 3.5 ppm, respectively. The sensor also exhibits a highly selective hydrogen response against CO, CH 4 , ethanol, H 2 S, and NH 3 . The hydrogen response of the Nb 2 O 5−x nanobelts can be attributed to the redox reaction between hydrogen and preadsorbed oxygens. The defective surface structure and the prolonged dimension of the nanobelts give rise to the highly reactive surface and the suppression of the negative nanojunction effect, which greatly improves the sensing performance. The orthorhombic lattice structure can also promote gas adsorption and diffusion behavior due to its specific catalytic and pathway effect. The results of this work can be helpful for the rational design and defect engineering of the Nb 2 O 5 -based 1D nanostructures for room-temperature hydrogen sensing applications.

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Li¹,

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et al. 2022

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et al. 2015

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et al. 2023

Journal of Systems Architecture

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Keyang Hu

Hydrogen sensors based on Pt-decorated SnO2 nanorods with fast and sensitive room-temperature sensing performance

Fast, Sensitive, and Highly Selective Room-Temperature Hydrogen Sensing of Defect-Rich Orthorhombic Nb₂O_5–x Nanobelts with an Abnormal p-Type Sensor Response

VM Migration and Live-Update for Reliable Embedded Hypervisor

Fabrication and Performance of Water-Based Near-Infrared Absorption Ink-Jet Ink

Rust-Shyper: A reliable embedded hypervisor supporting VM migration and hypervisor live-update

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Keyang Hu

Hydrogen sensors based on Pt-decorated SnO2 nanorods with fast and sensitive room-temperature sensing performance

Fast, Sensitive, and Highly Selective Room-Temperature Hydrogen Sensing of Defect-Rich Orthorhombic Nb2O5–x Nanobelts with an Abnormal p-Type Sensor Response

VM Migration and Live-Update for Reliable Embedded Hypervisor

Fabrication and Performance of Water-Based Near-Infrared Absorption Ink-Jet Ink

Rust-Shyper: A reliable embedded hypervisor supporting VM migration and hypervisor live-update

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Product

Resources

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Fast, Sensitive, and Highly Selective Room-Temperature Hydrogen Sensing of Defect-Rich Orthorhombic Nb₂O_5–x Nanobelts with an Abnormal p-Type Sensor Response