# Graphene-Quantum Dot Hybrid Photodetectors from 200 mm Wafer Scale   Processing

**Authors:** Sha Li, Zhenxing Wang, Bianca Robertz, Daniel Neumaier, Oihana, Txoperena, Arantxa Maestre, Amaia Zurutuza, Chris Bower, Ashley Rushton,, Yinglin Liu, Chris Harris, Alexander Bessonov, Surama Malik, Mark Allen,, Ivonne Medina-Salazar, Tapani Ryh\"anen, Max C. Lemme

arXiv: 2303.00406 · 2025-04-29

## TL;DR

This paper presents a scalable 200 mm wafer process for graphene-quantum dot hybrid photodetectors, achieving high yield, broad spectral responsivity, and integration with CMOS technology for infrared imaging applications.

## Contribution

It introduces a large-scale fabrication method for GFET-QD photodetectors with high yield and demonstrates their integration into image sensor systems.

## Key findings

- High fabrication yield of 96% on 200 mm wafers
- Responsivity of 10^5 - 10^6 V/W across 400-1800 nm
- External quantum efficiency of 20% in short-wavelength IR

## Abstract

A 200 mm processing platform for the large-scale production of graphene field-effect transistor-quantum dot (GFET-QD) hybrid photodetectors is demonstrated. Comprehensive statistical analysis of electric data shows a high yield (96%) and low variation of the 200 mm scale fabrication. The GFET-QD devices deliver responsivities of 10${^5}$ - 10${^6}$ V/W in a wavelength range from 400 to 1800 nm, at up to 100 frames per second. Spectral sensitivity compares well to that obtained using similar GFET-QD photodetectors. The device concept enables gate-tunable suppression or enhancement of the photovoltage, which may be exploited for electric shutter operation by toggling between the signal capture and shutter states. The devices show good stability at a wide operation range and external quantum efficiency of 20% in the short-wavelength infrared range. Furthermore, an integration solution with complementary metal-oxide-semiconductor technology is presented to realize image-sensor-array chips and a proof-of-concept image system. This work demonstrates the potential for the volume manufacture of infrared photodetectors for a wide range of imaging applications.

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Source: https://tomesphere.com/paper/2303.00406