Yun Zhou scite author profile

Gas sensors based on titanium dioxide (TiO2) have attracted much public attention during the past decades due to their excellent potential for applications in environmental pollution remediation, transportation industries, personal safety, biology, and medicine. Numerous efforts have therefore been devoted to improving the sensing performance of TiO2. In those effects, the construct of nanoheterostructures is a promising tactic in gas sensing modification, which shows superior sensing performance to that of the single component-based sensors. In this review, we briefly summarize and highlight the development of TiO2-based heterostructure gas sensing materials with diverse models, including semiconductor/semiconductor nanoheterostructures, noble metal/semiconductor nanoheterostructures, carbon-group-materials/semiconductor nano- heterostructures, and organic/inorganic nanoheterostructures, which have been investigated for effective enhancement of gas sensing properties through the increase of sensitivity, selectivity, and stability, decrease of optimal work temperature and response/recovery time, and minimization of detectable levels.

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When too little or too much hurts: Evidence for a curvilinear relationship between team faultlines and performance

Chen

Wang

Zhou

et al. 2017

Asia Pac J Manag

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The coexistence of the negative and positive electrocaloric effect in ferroelectric thin films for solid-state refrigeration

Li¹,

Wang²,

Zhong³

et al. 2013

EPL

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The coexistence of the negative and positive electrocaloric effect (ECE) caused by an applied electric field direction different from the dipole direction of 180 • domain structures is firstly found in ferroelectric thin films using the phase-field-based simulation. The calculation results reveal that a negative adiabatic temperature change (∆T = −3.4 K) and a positive adiabatic temperature change (∆T = 3.1 K) coexist in the PbTiO3 thin film with 180 • domain structures under the dimensional electric field ∆E = 0.1. The coexistence of negative and positive ECE in a thin film can provide a new way to design solid-state refrigerators.

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A high-response ethanol gas sensor based on one-dimensional TiO₂/V₂O₅branched nanoheterostructures

et al. 2016

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Hierarchical nanostructures with much increased surface-to-volume ratio have been of significant interest for prototypical gas sensors. Herein we report a novel resistive gas sensor based on TiO2/V2O5 branched nanoheterostructures fabricated by a facile one-step synthetic process, in which well-matched energy levels induced by the formation of effective heterojunctions between TiO2 and V2O5, a large Brunauer-Emmett-Teller surface area and complete electron depletion for the V2O5 nanobranches induced by the branched-nanofiber structures are all beneficial to the change of resistance upon ethanol exposure. As a result, the ethanol sensing performance of this device shows a lower operating temperature, faster response/recovery behavior, better selectivity and about seven times higher sensitivity compared with pure TiO2 nanofibers. This study not only confirms the gas sensing mechanism for performing enhancement of branched nanoheterostructures, but also proposes a rational approach to the design of nanostructure-based chemical sensors with desirable performance.

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Yun Zhou

TiO2-Based Nanoheterostructures for Promoting Gas Sensitivity Performance: Designs, Developments, and Prospects

When too little or too much hurts: Evidence for a curvilinear relationship between team faultlines and performance

The coexistence of the negative and positive electrocaloric effect in ferroelectric thin films for solid-state refrigeration

A high-response ethanol gas sensor based on one-dimensional TiO₂/V₂O₅branched nanoheterostructures

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Resources

About

Yun Zhou

TiO2-Based Nanoheterostructures for Promoting Gas Sensitivity Performance: Designs, Developments, and Prospects

When too little or too much hurts: Evidence for a curvilinear relationship between team faultlines and performance

The coexistence of the negative and positive electrocaloric effect in ferroelectric thin films for solid-state refrigeration

A high-response ethanol gas sensor based on one-dimensional TiO2/V2O5branched nanoheterostructures

Contact Info

Product

Resources

About

A high-response ethanol gas sensor based on one-dimensional TiO₂/V₂O₅branched nanoheterostructures