A room-temperature mid-infrared photodetector for on-chip molecular vibrational spectroscopy

Abstract

Infrared (IR) photodetection is of major scientific and technical interest since virtually all molecules exhibit characteristic vibrational modes in the mid-infrared region of the spectrum, giving rise to molecular spectroscopy and chemical imaging in this wavelength range. High-resolution IR spectroscopies, such as Fourier Transform IR spectroscopy, typically require large, bulky optical measurement systems and expensive photodetector components. Here, we present a high-responsivity photodetector for the mid-IR spectral region which operates at room temperature. Fabricated from silicon and aluminum, the photodetection mechanism is based on free carrier absorption, giving rise to a photoresponse rivalling commercially available cooled IR photodetectors. We demonstrate that infrared spectra of molecules deposited on this detector can be obtained by a direct electrical read-out. This work could pave the way for simple, fully integrated chemical sensors and other applications, such as chemical imaging, which would benefit from the combination of mid-IR detection, room-temperature operation, and ultracompact portability.

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Zheng, Bob, Zhao, Hangqi, Cerjan, Ben, et al.. "A room-temperature mid-infrared photodetector for on-chip molecular vibrational spectroscopy." Applied Physics Letters, 113, no. 10 (2018) AIP Publishing: https://doi.org/10.1063/1.5045663.

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