Large Lateral Photovoltaic Effect in MoS2/GaAs Heterojunction

Hao, Lanzhong; Liu, Yunjie; Han, Zhongying; Xu, Zhijie; Zhu, Jing

doi:10.1186/s11671-017-2334-z

Cited by 22 publications

(12 citation statements)

References 24 publications

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“…Consequently, surface bands bending and a built-in electric field forms, generating depletion layer as well as an inversion layer. The inversion layer can provide a high speed path for carrier transport, which has been confirmed by previous studies [13,14,[27][28][29]. For lightly n-doped Si, the surface bands bend upwards, leading to the electric field directing from bulk Si to the surface (Figure 4).…”

Section: Mechanism For Ultrasensitive Graphene Psdsupporting

confidence: 80%

“…In addition, for the purposes of eye safety and concealment, the infrared light is the routine operating wavelength for sensing systems, which is also a bottleneck for PSD based on these structures due to the weak light absorption and lack of gain. Recently, by virtue of the excellent properties, various two-dimensional materials have been employed to fabricate PSDs and some new structures were proposed [11][12][13][14][15][16]. In our previous studies, we designed a graphene-based PSD using interfacial amplification [15], and its detection limit power can be reduced to nw level by introducing gain.…”

Section: Introductionmentioning

confidence: 99%

“…While in our previously reported PSD based on interfacial amplification effect, photogenerated electrons at the interface of SiO 2 /Si cause a gating effect and a high photoresponse. For both of them, only one type of carrier (electron or hole) contributes to photoresponse and position sensitivity [12][13][14][15][16][17]. Here, we present an ultrasensitive graphene based PSD on lightly n-doped Si substrate by using synergistic effect of charge injection and interfacial gating.…”

Section: Introductionmentioning

confidence: 99%

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Ultrasensitive graphene position-sensitive detector induced by synergistic effects of charge injection and interfacial gating

Wang

Sun

et al. 2020

Nanophotonics

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AbstractPosition-sensitive detectors (PSDs) are essential components to the realization of displacement and vibration detection, optical remote control, robot vision, etc. The light sensitivity of PSDs is a crucial parameter, which determines the operating range or detection accuracy of the measurement systems. Here, we devise an ultrasensitive PSD based on graphene/Si hybrid structure by using the synergistic effect of charge injection and interfacial gating. Photogenerated carriers in Si are separated by the built-in electric field at the surface. Holes diffuse laterally in inversion layer and then inject into graphene to form photoresponse. Meanwhile, the electrons in bulk Si that move to the area under graphene cause a gating effect, thus introducing a high gain. With the benefit of synergistic effect, the detection limit power of our device can be pushed to pW level, which is reduced by two orders of magnitude compared to previously reported graphene based PSD. Furthermore, even for infrared light of 1064 nm, the PSD still retains position sensitivity to 1 nW weak light, as well as fast response speed at the μs level. This work provides the potential of graphene as a promising material for ultraweak light position sensitive detection.

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Section: Mechanism For Ultrasensitive Graphene Psdsupporting

confidence: 80%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Ultrasensitive graphene position-sensitive detector induced by synergistic effects of charge injection and interfacial gating

Wang

Sun

et al. 2020

Nanophotonics

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“…Moreover, recently developed 2D materials have been employed to combine with semiconductors. As is known, photodetection devices using 2D materials usually exhibit a fast response time and high sensitivity . Similar to the metal films, thickness of 2D material deposited on semiconductor substrate is also a crucial factor affecting the photoelectric performance of devices.…”

Section: Lateral Photovoltaic Effectmentioning

confidence: 99%

Lateral Photovoltaic Effect and Photo‐Induced Resistance Effect in Nanoscale Metal‐Semiconductor Systems

Dong

Wang

2019

Annalen der Physik

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Functionalization of photoelectric effect in nanostructures is presenting a promising strategy for humans to achieve precise detection and efficient transformation. Due to the high applied value, numerous materials and constructions are adopted for photoelectric effect to deliver on its potential performance. Among these functional materials, metal-semiconductor (MS) or metal-oxide-semiconductor (MOS) systems own unparalleled advantage including reliable stability, superb physical performance, and simple fabrication process. Herein, two types of photoelectric effect, lateral photovoltaic and photo-induced resistance effect, in nanostructure MS or MOS systems are reviewed. These effects have great potential in applications and will play a beneficial role in future investigations. In addition, how each component of the system contributes to the photoelectric properties and responds to external fields are detailed, suggesting future study directions in photoelectric fields.

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“…Nonlinear optical materials, especially those with 2D structures, lay the foundations of optoelectronics development [1][2][3][4][5]. The graphene has been intensively investigated as an optical modulator for use in diverse pulsed lasers and excellent results are obtained [6,7].…”

Section: Introductionmentioning

confidence: 99%

Mode-Locked Er-Doped Fiber Laser by Using MoS2/SiO2 Saturable Absorber

Chen

et al. 2019

Nanoscale Res Lett

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The two-dimensional (2D) layered material MoS 2 has attracted numerous attentions for electronics and optoelectronics applications. In this work, a novel type of MoS 2-doped sol-gel glass composite material is prepared. The nonlinear optical properties of prepared MoS 2 /SiO 2 composite material are measured with modulation depth (ΔT) of 3.5% and saturable intensity (I sat) of 20.15 MW/cm 2. The optical damage threshold is 3.46 J/cm 2. Using the MoS 2 /SiO 2 composite material as saturable absorber (SA), a passive mode-locked Er-doped fiber (EDF) laser is realized. Stable conventional soliton mode-locking pulses are successfully generated with a pulse width of 780 fs at the pump power of 90 mW. In the pump power range of 100-600 mW, another stable mode-locking operation is obtained. The pulse width is 1.21 ps and the maximum output power is 5.11 mW. The results indicate that MoS 2 / SiO 2 composite materials could offer a new way for optical applications.

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Large Lateral Photovoltaic Effect in MoS2/GaAs Heterojunction

Cited by 22 publications

References 24 publications

Ultrasensitive graphene position-sensitive detector induced by synergistic effects of charge injection and interfacial gating

Ultrasensitive graphene position-sensitive detector induced by synergistic effects of charge injection and interfacial gating

Lateral Photovoltaic Effect and Photo‐Induced Resistance Effect in Nanoscale Metal‐Semiconductor Systems

Mode-Locked Er-Doped Fiber Laser by Using MoS2/SiO2 Saturable Absorber

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