Controllable Coupling Effects Enhance the Performance of Ionic-Polymer-Gated Graphene Photodetectors

Jiang, Hao; Fan, Anqi; Yang, Honglun; Sun, Jie; Li, Yang; Cui, Haijuan

doi:10.1021/acsanm.2c01286

Cited by 2 publications

(1 citation statement)

References 41 publications

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“…Yoo et al demonstrated the efficient doping of Gr with polyethyleneimine (PEI) solution, which helps to increase the barrier height up to 0.26 eV and reduce the dark current by four orders of magnitude 45 . Figure 4b shows the electrostatic doping of a Gr/silicon-on-insulator PD by an ionic-polymer gate 47 . Ionic polymers are newly emergent dielectric media that help to improve the switching speed of Gr-based PDs.…”

Section: Gr/si Schottky Photodetectormentioning

confidence: 99%

Graphene photodetectors integrated with silicon and perovskite quantum dots

Abbas,

Ji,

Ullah

et al. 2024

Microsyst Nanoeng

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Photodetectors (PDs) play a crucial role in imaging, sensing, communication systems, etc. Graphene (Gr), a leading two-dimensional material, has demonstrated significant potential for photodetection in recent years. However, its relatively weak interaction with light poses challenges for practical applications. The integration of silicon (Si) and perovskite quantum dots (PQDs) has opened new avenues for Gr in the realm of next-generation optoelectronics. This review provides a comprehensive investigation of Gr/Si Schottky junction PDs and Gr/PQD hybrid PDs as well as their heterostructures. The operating principles, design, fabrication, optimization strategies, and typical applications of these devices are studied and summarized. Through these discussions, we aim to illuminate the current challenges and offer insights into future directions in this rapidly evolving field.

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Section: Gr/si Schottky Photodetectormentioning

confidence: 99%

Graphene photodetectors integrated with silicon and perovskite quantum dots

Abbas,

Ji,

Ullah

et al. 2024

Microsyst Nanoeng

View full text Add to dashboard Cite

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Photodetectors Based on Graphene–Semiconductor Hybrid Structures: Recent Progress and Future Outlook

Fu,

Nie,

Sun

et al. 2023

Adv Devices Instrum

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The integration of graphene and semiconductor leverages the distinct advantages of different materials and unleashes promising photoresponse generation phenomena, thereby facilitating the advancement of high-performance photodetectors. Notably, the van der Waals interaction enables the combination of graphene with diverse semiconductors, transcending epitaxial lattice matching limitations and offering unprecedented degrees of freedom in materials selection. Moreover, the ongoing development of growth and transfer techniques has also allowed graphene to be merged into existing mature semiconductor processes for large-area image sensors. Here, a review of graphene–semiconductor hybrid photodetectors is presented, aiming to contribute to the broader understanding of these intriguing devices and inspire further research in this exciting field. Firstly, the working principles and device configurations of the graphene–semiconductor hybrid photodetectors are introduced. Subsequently, recent progress in photodetectors featuring graphene–semiconductor hybrid structures is summarized, which showcases the cutting-edge achievements and breakthroughs. Finally, the remaining challenges in this type of device are analyzed, and future development prospects are also highlighted.

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Controllable Coupling Effects Enhance the Performance of Ionic-Polymer-Gated Graphene Photodetectors

Cited by 2 publications

References 41 publications

Graphene photodetectors integrated with silicon and perovskite quantum dots

Graphene photodetectors integrated with silicon and perovskite quantum dots

Photodetectors Based on Graphene–Semiconductor Hybrid Structures: Recent Progress and Future Outlook

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