Sensors (Aug 2016)

Towards a Graphene-Based Low Intensity Photon Counting Photodetector

  • Jamie O. D. Williams,
  • Jack A. Alexander-Webber,
  • Jon S. Lapington,
  • Mervyn Roy,
  • Ian B. Hutchinson,
  • Abhay A. Sagade,
  • Marie-Blandine Martin,
  • Philipp Braeuninger-Weimer,
  • Andrea Cabrero-Vilatela,
  • Ruizhi Wang,
  • Andrea De Luca,
  • Florin Udrea,
  • Stephan Hofmann

DOI
https://doi.org/10.3390/s16091351
Journal volume & issue
Vol. 16, no. 9
p. 1351

Abstract

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Graphene is a highly promising material in the development of new photodetector technologies, in particular due its tunable optoelectronic properties, high mobilities and fast relaxation times coupled to its atomic thinness and other unique electrical, thermal and mechanical properties. Optoelectronic applications and graphene-based photodetector technology are still in their infancy, but with a range of device integration and manufacturing approaches emerging this field is progressing quickly. In this review we explore the potential of graphene in the context of existing single photon counting technologies by comparing their performance to simulations of graphene-based single photon counting and low photon intensity photodetection technologies operating in the visible, terahertz and X-ray energy regimes. We highlight the theoretical predictions and current graphene manufacturing processes for these detectors. We show initial experimental implementations and discuss the key challenges and next steps in the development of these technologies.

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