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A review of progress and outlook for photodetectors based on graphene–semiconductor hybrid structures

Photodetectors based on graphene–semiconductor hybrid structures: recent progress and future outlook
As a representative two-dimensional material, graphene possesses unique optical and electrical properties that hold immense promise in various fields, particularly in photodetection. Nonetheless, its atomic-level thickness results in weak light absorption, seriously limiting the enhancement of key performance indicators for graphene photodetectors. Credit: Advanced Devices & Instrumentation

A recent review summarizes the progress made in graphene-semiconductor hybrid photodetectors over the past decade. It begins by introducing key photodetector performance indicators, providing the basis for an accurate performance evaluation. The review then elucidates the photoelectric conversion mechanism of graphene-semiconductor hybrid photodetectors.

Next, it delves into the operational principles of these detectors in various configurations, offering insights into typical devices. Finally, the outlines future development directions for -semiconductor hybrid photodetectors.

Graphene-semiconductor hybrid photodetectors offer several advantages:

  • Graphene complements other semiconductor materials, leading to the emergence of new phenomena in photocurrent generation, transport, and collection, as well as the development of innovative devices.
  • Graphene can be easily integrated with other semiconductors without the need for strict lattice matching, providing a high degree of flexibility in selecting .
  • The compatibility of graphene with silicon-based complementary metal-oxide-semiconductor processes, coupled with the mature process technology of traditional semiconductors, forms a strong foundation for the transition of graphene-semiconductor hybrid photodetectors from the laboratory to practical applications.

The paper is published in the journal Advanced Devices & Instrumentation.

The integration of graphene and semiconductors in constructing novel photodetectors has made significant strides in broadband detection, achieving GHz-level working bandwidth, ultra-high responsivity, and gain bandwidth production. However, the development of devices that combine , multifunctionality, and wafer-level fabrication remains a challenge.

Overcoming these challenges requires the development of new methods and processes to optimize the performance and expand the functionality of graphene-semiconductor hybrid detectors, which is expected to drive advancements in photodetection technology.

More information: Jintao Fu et al, Photodetectors Based on Graphene–Semiconductor Hybrid Structures: Recent Progress and Future Outlook, Advanced Devices & Instrumentation (2023). DOI: 10.34133/adi.0031

Provided by Advanced Devices & Instrumentation

Citation: A review of progress and outlook for photodetectors based on graphene–semiconductor hybrid structures (2024, May 31) retrieved 21 June 2024 from https://phys.org/news/2024-05-outlook-photodetectors-based-graphenesemiconductor-hybrid.html
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