Vacancy Engineering Optimizing Solid/Liquid Interfacial Properties for Boosting Self‐Powered Solar‐Blind Photodetection

Zhang, Yuan; Shao, Zhitao; Zhou, Junxin; Sun, Simin; Sun, Ruyu; Zhang, Nana; Liu, Jiaming; Gao, Xinyu; Hu, PingAn; Feng, Wei

doi:10.1002/adom.202401639

Advanced Optical Materials

2024

DOI: 10.1002/adom.202401639

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Vacancy Engineering Optimizing Solid/Liquid Interfacial Properties for Boosting Self‐Powered Solar‐Blind Photodetection

Yuan Zhang,

Zhitao Shao,

Junxin Zhou

et al.

Abstract: Due to the nature of the aqueous operation characteristics of photoelectrochemical‐type (PEC) optoelectronic devices, it is vital to manipulate the semiconductor/electrolyte interfacial properties to synergistically regulate the photogenerated carrier separation, charge transport in semiconductors, and interfacial charge transfer. In this work, it is demonstrated that sulfur vacancy effectively manipulates the band structure of ZnS and works as electrochemical reaction active sites synchronously. ZnS with more… Show more

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High‐Performance Self‐Powered PEC Photodetectors Based on 2D BiVO₄/MXene Schottky Junction

Zhou,

Jiang,

Han

et al. 2024

Adv Funct Materials

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As an emerging field, self‐powered photoelectrochemical (PEC) photodetectors have gradually attracted extensive attention thanks to the unique working characteristics of low preparation cost, strong tunability of device performance, and environmental friendliness. However, short absorption wavelength range, low efficiency of visible light utilization, and low responsivity remain challenges for performance improvements. Here, the PEC photodetectors based on the 2D BiVO4/MXene Schottky junction structure, which shows excellent performance with high photocurrent density (≈3.90 mA cm−2 at 0 VSCE under AM 1.5 G, 150 mW cm−2), good responsivity (790.2 mA W−1 under 447 nm), fast response time (tr/tf = 8/14 ms), and long‐term stability (keep 17 000 s and 22 000 cycles) are fabricated. These can be attributed to the built‐in electric field at the BiVO4/MXene Schottky junction interface, which accelerates the transfer of photogenerated electrons and holes, and inhibits interfacial charge recombination. Additionally, the MXene nanosheets improve the absorption of visible‐light‐induced photons on the valence band of BiVO4. These excellent properties show that this work provides a scientific experimental reference for the further development of PEC photodetectors.

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High‐Performance Self‐Powered PEC Photodetectors Based on 2D BiVO₄/MXene Schottky Junction

Zhou,

Jiang,

Han

et al. 2024

Adv Funct Materials

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Self‐Powered High‐Responsivity Self‐Supporting SiC/SnO₂ Nanoarray Photoelectrochemical Ultraviolet Photodetector: Toward All‐Scenario Harsh Underwater Applications

Zou,

Chen,

Sun

et al. 2024

Adv Funct Materials

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Battery‐free photodetection is necessary for underwater optical communication, which poses extremely high requirements in terms of the self‐powering capability of photodetectors (PDs) and their ability to operate in harsh liquid environments. Emerging photoelectrochemical (PEC) PDs are appealing owing to their inherent aqueous operation behaviors with highly tunable photoresponses. Herein, a novel self‐powered PEC ultraviolet (UV) PD applicable to all‐scenario harsh underwater environments, including seawater at different latitudes and solutions with different pH values and temperatures, is demonstrated based on integrated self‐supporting SiC/SnO2 heterojunction nanoarrays. The SiC/SnO2 heterojunction nanoarrays are achieved by utilizing the anodic oxidation and chemical bath deposition. The SiC/SnO2 PEC PD demonstrates excellent photodetection performance with rapid rise/decay times (τr/τd, 30/120 ms), high responsivity (Rλ, 1.97 A W−1), remarkable detectivity (D*, 1.98 × 1011 Jones), and large external quantum efficiency (EQE, 65.5%) in seawater under 375 nm UV light illumination with zero bias voltage. Moreover, the PEC PD delivers a high photoresponse and excellent aging stability in different latitudes of the world's oceans. The photodetection capability is robust even under harsh conditions, such as strongly acidic and alkaline liquid conditions, and at high temperatures. The developed device is a new type of photodetection device for future all‐scenario underwater optical communication.

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Vacancy Engineering Optimizing Solid/Liquid Interfacial Properties for Boosting Self‐Powered Solar‐Blind Photodetection

Cited by 2 publications

References 59 publications

High‐Performance Self‐Powered PEC Photodetectors Based on 2D BiVO₄/MXene Schottky Junction

High‐Performance Self‐Powered PEC Photodetectors Based on 2D BiVO₄/MXene Schottky Junction

Self‐Powered High‐Responsivity Self‐Supporting SiC/SnO₂ Nanoarray Photoelectrochemical Ultraviolet Photodetector: Toward All‐Scenario Harsh Underwater Applications

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Vacancy Engineering Optimizing Solid/Liquid Interfacial Properties for Boosting Self‐Powered Solar‐Blind Photodetection

Cited by 2 publications

References 59 publications

High‐Performance Self‐Powered PEC Photodetectors Based on 2D BiVO4/MXene Schottky Junction

High‐Performance Self‐Powered PEC Photodetectors Based on 2D BiVO4/MXene Schottky Junction

Self‐Powered High‐Responsivity Self‐Supporting SiC/SnO2 Nanoarray Photoelectrochemical Ultraviolet Photodetector: Toward All‐Scenario Harsh Underwater Applications

Contact Info

Product

Resources

About

High‐Performance Self‐Powered PEC Photodetectors Based on 2D BiVO₄/MXene Schottky Junction

High‐Performance Self‐Powered PEC Photodetectors Based on 2D BiVO₄/MXene Schottky Junction

Self‐Powered High‐Responsivity Self‐Supporting SiC/SnO₂ Nanoarray Photoelectrochemical Ultraviolet Photodetector: Toward All‐Scenario Harsh Underwater Applications