A New Method for Lift-off of III-Nitride Semiconductors for Heterogeneous Integration
نویسندگان
چکیده
The release and transfer of GaN epilayers to other substrates is of interest for a variety of applications, including heterogeneous integration of silicon logic devices, III-V power devices and optical devices. We have developed a simple wet chemical etching method to release high-quality epitaxial III-nitride films from their substrates. This method builds on a nanoepitaxial lateral overgrowth (NELO) process that provides III-Nitride films with low dislocation densities. NELO is accomplished using a nanoporous mask layer patterned on GaN substrates. Chemical removal of the SiO2 layer after growth of III-Nitride overlayers causes fracture at the interface between the GaN film and the original GaN substrate, resulting in free-standing GaN films with nanostructured surfaces on one side. These layers can be transferred to other substrates, and the nano-structured surface can be used in photonic devices, or planarized for power devices.
منابع مشابه
Large Vacuum Rabi Splitting in a Single Nitride-Based Quantum WellMicrocavity
Here, we report a theoretical detailed study of Vacuum Rabi Splitting (VRS) in the system of Nitride Single Quantum Well (SQW) within a semiconductor microcavity. Distributed Bragg Reflectors (DBRs) containing ZnTe/ZnSe multilayers including GaAs microcavity and ( SQW at the center of microcavity, has been considered. Upper and lower exciton-polariton branches obtaine...
متن کاملNitride micro-LEDs and beyond--a decade progress review.
Since their inception, micro-size light emitting diode (µLED) arrays based on III-nitride semiconductors have emerged as a promising technology for a range of applications. This paper provides an overview on a decade progresses on realizing III-nitride µLED based high voltage single-chip AC/DC-LEDs without power converters to address the key compatibility issue between LEDs and AC power grid in...
متن کاملWafer scale aligned sub-25nm metal nanowires on Silicon (110) using PEDAL lift-off process
We have demonstrated a new PEDAL process to make sub-25 nm nanowires template across the entire Silicon (110) wafer suitable for wafer-scale nanoimprinting. The “PEDAL lift-off” has the ability to fabricate metal nanowires directly on the wafers without using nanoimprint techniques. The process involves defining the edge by etching a trench, patterned using conventional i-line lithography, and ...
متن کاملThe Group III-Nitride Material Class: from Preparation to Perspectives in Photoelectrocatalysis
In this chapter, the physical properties of group III-nitride compound semiconductors are reviewed in the context to act as semiconducting material in photoelectrocatalytic solar fuel structures. The band alignments in the InN-GaN-AlN-InN alloy system are summarized and discuss with respect to potential catalysts HOMO and LUMO states, providing efficient charge transfer in photoelectrochemical ...
متن کاملUltra-high-throughput Production of III-V/Si Wafer for Electronic and Photonic Applications
Si-based integrated circuits have been intensively developed over the past several decades through ultimate device scaling. However, the Si technology has reached the physical limitations of the scaling. These limitations have fuelled the search for alternative active materials (for transistors) and the introduction of optical interconnects (called "Si photonics"). A series of attempts to circu...
متن کامل