Jinzong Kou scite author profile

Flexible self-powered sensing is urgently needed for wearable, portable, sustainable, maintenance-free and long-term applications. Here, we developed a flexible and self-powered GaN membrane-based ultraviolet (UV) photoswitch with high on/off ratio and excellent sensitivity. Even without any power supply, the driving force of UV photogenerated carriers can be well boosted by the combination of both built-in electric field and piezoelectric polarization field. The asymmetric metal-semiconductor-metal structure has been elaborately utilized to enhance the carrier separation and transport for highly sensitive UV photoresponse. Its UV on/off ratio and detection sensitivity reach to 4.67 × 10(5) and 1.78 × 10(12) cm·Hz(0.5) W(1-), respectively. Due to its excellent mechanical flexibility, the piezoelectric polarization field in GaN membrane can be easily tuned/controlled based on piezo-phototronic effect. Under 1% strain, a stronger and broader depletion region can be obtained to further enhance UV on/off ratio up to 154%. As a result, our research can not only provide a deep understanding of local electric field effects on self-powered optoelectronic detection, but also promote the development of self-powered flexible optoelectronic devices and integrated systems.

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Strain-Gated Field Effect Transistor of a MoS₂–ZnO 2D–1D Hybrid Structure

Chen

Xue

et al. 2015

ACS Nano

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Two-dimensional (2D) molybdenum disulfide (MoS2) is an exciting material due to its unique electrical, optical, and piezoelectric properties. Owing to an intrinsic band gap of 1.2–1.9 eV, monolayer or a-few-layer MoS2 is used for fabricating field effect transistors (FETs) with high electron mobility and on/off ratio. However, the traditional FETs are controlled by an externally supplied gate voltage, which may not be sensitive enough to directly interface with a mechanical stimulus for applications in electronic skin. Here we report a type of top-pressure/force-gated field effect transistors (PGFETs) based on a hybrid structure of a 2D MoS2 flake and 1D ZnO nanowire (NW) array. Once an external pressure is applied, the piezoelectric polarization charges created at the tips of ZnO NWs grown on MoS2 act as a gate voltage to tune/control the source–drain transport property in MoS2. At a 6.25 MPa applied stimulus on a packaged device, the source–drain current can be tuned for ∼25%, equivalent to the results of applying an extra −5 V back gate voltage. Another type of PGFET with a dielectric layer (Al2O3) sandwiched between MoS2 and ZnO also shows consistent results. A theoretical model is proposed to interpret the received data. This study sets the foundation for applying the 2D material-based FETs in the field of artificial intelligence.

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A flexible p-CuO/n-MoS₂ heterojunction photodetector with enhanced photoresponse by the piezo-phototronic effect

et al. 2017

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Jinzong Kou

Flexible Self-Powered GaN Ultraviolet Photoswitch with Piezo-Phototronic Effect Enhanced On/Off Ratio

Strain-Gated Field Effect Transistor of a MoS₂–ZnO 2D–1D Hybrid Structure

A flexible p-CuO/n-MoS₂ heterojunction photodetector with enhanced photoresponse by the piezo-phototronic effect

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Jinzong Kou

Flexible Self-Powered GaN Ultraviolet Photoswitch with Piezo-Phototronic Effect Enhanced On/Off Ratio

Strain-Gated Field Effect Transistor of a MoS2–ZnO 2D–1D Hybrid Structure

A flexible p-CuO/n-MoS2 heterojunction photodetector with enhanced photoresponse by the piezo-phototronic effect

Contact Info

Product

Resources

About

Strain-Gated Field Effect Transistor of a MoS₂–ZnO 2D–1D Hybrid Structure

A flexible p-CuO/n-MoS₂ heterojunction photodetector with enhanced photoresponse by the piezo-phototronic effect