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Interfacial Modulated Lattice-Polarity-Controlled Epitaxy of III-Nitride Heterostructures on Si(111)

Ping Wang, Ding Wang, Shubham Mondal, Yuanpeng Wu, Tao Ma, Zetian Mi

2022ACS Applied Materials & Interfaces32 citationsDOI

Abstract

Monolithic integration of wurtzite III-nitrides with nonpolar silicon (Si), the two most-produced semiconductor materials, is essential and critical for a broad range of applications in electronics, optoelectronics, quantum photonics, and renewable energy. To date, however, it has remained challenging to achieve III-nitride heterostructures on Si with controlled lattice-polarity. Herein, we show that such critical challenges of III-nitrides on Si can be fundamentally addressed through a unique interfacial modulated lattice-polarity-controlled epitaxy (IMLPCE). It is discovered that the lattice-polarity of aluminum nitride (AlN) grown on Si(111) is primarily determined by the AlSiN interlayer: N-polar and Al-polar AlN can be achieved by suppressing and promoting the AlSiN interlayer formation, respectively. Furthermore, we develop a unique active-nitrogen-free in situ annealing process to mitigate the AlSiN layer formation at the GaN/AlN interface, which can eliminate the inverted domain formation commonly seen in N-polar GaN on AlN/Si. This study provides an alternative approach for controlling the lattice-polarity of III-nitrides on Si substrates and will enable their seamless integration with the mature Si-based device technology.

Topics & Concepts

Materials scienceHeterojunctionNitrideEpitaxyOptoelectronicsWurtzite crystal structureAnnealing (glass)SemiconductorLattice (music)NanotechnologyLayer (electronics)Composite materialZincPhysicsAcousticsMetallurgyGaN-based semiconductor devices and materialsSemiconductor materials and devicesAcoustic Wave Resonator Technologies
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