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Integration of High-Performance InGaAs/GaN Photodetectors by Direct Bonding via Micro-transfer Printing

Yang Liu, Zhi Li, Fatih Bilge Atar, Hemalatha Muthuganesan, Brian Corbett, Lai Wang

2024ACS Applied Materials & Interfaces16 citationsDOIOpen Access PDF

Abstract

The integration of dissimilar semiconductor materials holds immense potential for harnessing their complementary properties in novel applications. However, achieving such combinations through conventional heteroepitaxy or wafer bonding techniques presents significant challenges. In this research, we present a novel approach involving the direct bonding of InGaAs-based p-i-n membranes with GaN, facilitated by van der Waals forces and microtransfer printing technology. The resulting n-InP/n-GaN heterojunction was rigorously characterized through electrical measurements, with a comprehensive investigation into the impact of various surface treatments on device performance. The obtained InGaAs/GaN photodetector demonstrates remarkable electrical properties and exhibits a high optical responsivity of 0.5 A/W at the critical wavelength of 1550 nm wavelength. This pioneering work underscores the viability of microtransfer printing technology in realizing large lattice-mismatched heterojunction devices, thus expanding the horizons of semiconductor device applications.

Topics & Concepts

Materials scienceOptoelectronicsResponsivityPhotodetectorHeterojunctionSemiconductorTransfer printingWafer bondingvan der Waals forceWaferNanotechnologyEngineering physicsComposite materialChemistryEngineeringOrganic chemistryMoleculeGaN-based semiconductor devices and materialsNanowire Synthesis and ApplicationsAdvanced Sensor and Energy Harvesting Materials
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