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A light-emitting diode epitaxial growth method with adjustable warpage during growth

A technology of light-emitting diodes and epitaxial growth, which is applied in the direction of electrical components, circuits, semiconductor devices, etc., can solve problems such as abnormal epitaxial surface, abnormal electrical properties, and bending of epitaxial wafers, so as to improve the state of concave growth, adjust stress, and improve The effect of photoelectric performance and product yield

Active Publication Date: 2018-03-20
XIAMEN CHANGELIGHT CO LTD
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  • Abstract
  • Description
  • Claims
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Problems solved by technology

[0006] The object of the present invention is to provide a light-emitting diode epitaxial growth method with adjustable warpage during the growth process, so as to solve the problem of epitaxial wafer bending caused by temperature changes and internal stress problems when growing epitaxial layers with different functions during the epitaxial growth process of the substrate, And the epitaxial surface abnormality and electrical performance abnormality caused by the increased bending of the epitaxial wafer

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  • A light-emitting diode epitaxial growth method with adjustable warpage during growth
  • A light-emitting diode epitaxial growth method with adjustable warpage during growth
  • A light-emitting diode epitaxial growth method with adjustable warpage during growth

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Embodiment Construction

[0041] The present invention will be described in detail below in conjunction with the accompanying drawings and specific embodiments.

[0042] refer to image 3 As shown, the present invention discloses a light-emitting diode epitaxial structure with adjustable warpage during the growth process. A buffer layer 2 is grown on the substrate 1, an unintentionally doped layer 3 is grown on the buffer layer 2, and an unintentionally doped layer 3 is grown on the unintentionally doped layer 3. Growth composite adjustment layer 4, first-type conductive layer 5 is grown on composite adjustment layer 4, active layer 6 is grown on first-type conductive layer 5, electron blocking layer 7 is grown on active layer 6, and second-type conductive layer is grown on electron blocking layer 7 The second-type conductive layer 8 , on which the ohmic contact layer 9 grows. The substrate 1 is preferably a large-scale sapphire substrate.

[0043]The composite adjustment layer 4 is one of GaInN / GaN / ...

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Abstract

The invention discloses an epitaxial growth method for a light-emitting diode capable of adjusting wrapping in the growth process. The epitaxial growth method comprises the following steps of enabling a buffer layer to be grown on the upper surface of the substrate; enabling an unintentional doping layer to be grown on the buffer layer; enabling each layer structure of a composite adjusting layer to be grown on the unintentional doping layer; enabling a first type conductive layer to be grown on the composite adjusting layer; enabling an active layer to be grown on the first type conductive layer; and enabling an electron barrier layer, a second type conductive layer and an ohmic contact layer to be grown on the active layer in sequence. By adoption of the epitaxial growth method, the problem of epitaxial wafer bending caused by temperature changes and internal stresses when the epitaxial layers of different functions are grown on the substrate in the epitaxial growth process can be solved; and meanwhile, the problems of abnormal epitaxial surface and abnormal electrical property caused by enlarged bending of the epitaxial wafer are solved as well.

Description

technical field [0001] The invention relates to the technical field of light-emitting diodes, in particular to an epitaxial growth method of light-emitting diodes with adjustable warpage in the growth process. Background technique [0002] Such as figure 1 As shown, in the conventional light-emitting diode epitaxial structure disclosed in the prior art, a buffer layer 20 is vapor-deposited on the substrate 10 by PVD, and the buffer layer 20 is an AlN buffer layer, or a GaN buffer layer, or an AlGaN buffer layer; growing an unintentionally doped layer (uGaN) 30 on the buffer layer 20; growing a first-type conductive layer (nGaN) 40 on the unintentionally doped layer 30; growing an active layer ( MQW) 50 ; a second-type conductive layer (pGaN) 60 is grown on the active layer (MQW) 50 ; an ohmic contact layer (ITO) 70 is grown on the second-type conductive layer (pGaN) 60 . [0003] Such as Figure 2a As shown, when growing the unintentionally doped layer (uGaN) on the buffe...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H01L33/00H01L33/12H01L33/20
CPCH01L33/0075H01L33/12H01L33/20
Inventor 林志伟陈凯轩张永卓祥景姜伟汪洋童吉楚方天足
Owner XIAMEN CHANGELIGHT CO LTD
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