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Growth of SiO2 nanometer mask in gallium nitride film by HVPE method and method thereof

A gallium nitride and mask technology, which is applied in the field of SiO2 nanoparticle lattice mask and preparation, can solve the problems that it is difficult to prepare a nanoscale mask structure, affect the quality of lateral overgrowth, and the process is complicated, etc., to achieve The electrochemical corrosion process is simple, the availability is improved, and the effect of uniform distribution

Inactive Publication Date: 2009-12-02
DAHOM FUJIAN ILLUMINATION TECH
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Problems solved by technology

In addition, there are many methods to reduce the dislocation density, but they are all similar to the lateral epitaxy overgrowth (ELOG) technology, but most of them require photolithography and other processes, the process is complicated and the cost is high, and the traditional photolithography method is difficult to prepare nanometer scale mask structure
On the other hand, Benliang Lei et al. have used AAO as a mask to improve the quality of the epitaxial layer [Benliang Lei et al. Electronic and Solid-state Letters, 9(7)G242-G244, 2006], but due to the 2 o 3 It will change to chemically very stable α-Al at high temperature 2 o 3 , GaN may be directly epitaxially grown on its surface, thus affecting the quality of lateral overgrowth

Method used

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  • Growth of SiO2 nanometer mask in gallium nitride film by HVPE method and method thereof

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Experimental program
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Effect test

Embodiment 1

[0018] Using MOCVD method HVPE method or MBE method in Al 2 o 3 On the (0001) surface of the substrate 1, a GaN thin film of about 3 microns is grown, and this thin film is used as a HVPE template, and then a 300nm thick metal Al thin layer is deposited on this template by electron beam evaporation at a temperature of 200°C, and then Put the template with Al layer into oxalic acid solution (0.3mol / L) or sulfuric acid solution (15wt%), and use a voltage of 40 volts to carry out anodic oxidation at room temperature for about 15 minutes, then the metal Al is electrochemically corroded into a regular distribution Porous AAO, and then soak the template in phosphoric acid solution (5wt%) at 30°C for 40 minutes, the purpose is to expand the pore size and remove the part of the alumina that is in contact with the lower layer of GaN at the bottom of the small hole, and deposit it in the small hole after cleaning 3-10nm thick SiO 2 , and finally soaked in 20% hydrochloric acid solutio...

Embodiment 2

[0020] Use SiC, Si or GaAs as the substrate, and the rest are the same as in Embodiment 1.

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Abstract

The invention relates to a silicon dioxide nano particle dot matrix mask used in a GaN film of hydride gas phase epitaxial growth, and a preparation method thereof, characterized by that a SiO2 nano particle lattie is used as a mask for GaN transversely epitaxial over growth. A layer of metal Al is evaporated by electron beam on a GaN form board firstly. Porous anode alumina (AAO) is prepared by electrochemistry then. A layer of dielectric SiO2 layer is deposited then. AAO is removed by acid solutionor aqueous alkali. Therefore, dot matrix distribution of SiO2 nano particle is obtained on the GaN form board. After cleaning treatment, the form board as a substrate is put in a HVPE reaction chamber for GaN thick film growth. The invention simplifies the photo-etching mask manufacturing technology greatly, and reduces the size of the mask to nanometer level, while metal Al and SiO2 layer can be prepared through electron beam evaporation and sputtering method for batched production.

Description

technical field [0001] The invention relates to a hydride vapor phase epitaxy (HVPE) method for growing SiO in gallium nitride (GaN) films 2 Nanoparticle lattice mask and its preparation method. The invention aims at improving the quality of epitaxially grown GaN materials, and belongs to the field of GaN film preparation. Background technique [0002] GaN material has excellent characteristics such as high luminous efficiency, high thermal conductivity, high temperature resistance, radiation resistance, acid and alkali resistance, high strength and high hardness. In recent years, it has attracted attention as the most advanced semiconductor material in the world. , green, purple, white light-emitting diodes and lasers, GaN has received more applications and attention. However, currently GaN still relies on Al 2 o 3 , GaAs, SiC, Si and other heterogeneous substrates, due to their large lattice mismatch and thermal expansion mismatch coefficients with GaN materials, in th...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H01L21/205
Inventor 王新中于广辉林朝通曹明霞巩航齐鸣李爱珍
Owner DAHOM FUJIAN ILLUMINATION TECH
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