Large-Area GeSe Realized Using Pulsed Laser Deposition for Ultralow-Noise and Ultrafast Broadband Phototransistors.
Sheetal DewanPrabal Dweep KhanikarRicha MudgalAvneet SinghPranaba Kishor MuduliRajendra SinghSamaresh DasPublished in: ACS applied materials & interfaces (2023)
Here, we report on the comprehensive growth, characterization, and optoelectronic application of large-area, two-dimensional germanium selenide (GeSe) layers prepared using the pulsed laser deposition (PLD) technique. Back-gated phototransistors based on few-layered 2D GeSe have been fabricated on a SiO 2 /Si substrate for ultrafast, low noise, and broadband light detection, showing spectral functionalities over a broad wavelength range of 0.4-1.5 μm. The broadband detection capabilities of the device have been attributed to the self-assembled GeO x /GeSe heterostructure and sub-bandgap absorption in GeSe. Besides a high photoresponsivity of 25 AW -1 , the GeSe phototransistor displayed a high external quantum efficiency of the order of 6.14 × 10 3 %, a maximum specific detectivity of 4.16 × 10 10 Jones, and an ultralow noise equivalent power of 0.09 pW/Hz 1/2 . The detector has an ultrafast response/recovery time of 3.2/14.9 μs and can show photoresponse up to a high cut-off frequency of 150 kHz. These promising device parameters exhibited by PLD-grown GeSe layers-based detectors make it a favorable choice against present-day mainstream van der Waals semiconductors with limited scalability and optoelectronic compatibility in the visible-to-infrared spectral range.