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A kind of high-quality silicon carbide crystal and its growth method and device

A technology of crystal growth and crystal growth, applied in the directions of crystal growth, single crystal growth, single crystal growth, etc., can solve the problems of many uncontrollable factors, unstable temperature field in the crucible, uncontrollable temperature gradient, etc., to ensure the growth efficiency , the effect of shortening the growth cycle and preventing the appearance of crystal defects

Active Publication Date: 2022-07-12
上海天岳半导体材料有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] However, the current control of the temperature gradient is mainly done through the design of the internal insulation structure or the flow of air, but the above methods have too many uncontrollable factors
The processing of the heat preservation structure, the change of air flow caused by vibration or other external factors will cause the temperature field in the crucible to be unstable, resulting in an uncontrollable temperature gradient in the crucible

Method used

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  • A kind of high-quality silicon carbide crystal and its growth method and device
  • A kind of high-quality silicon carbide crystal and its growth method and device
  • A kind of high-quality silicon carbide crystal and its growth method and device

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Experimental program
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Effect test

Embodiment 1

[0089] like figure 1 As shown, the embodiment of the present application discloses a crystal growth apparatus, which includes: a cooling jacket, a closed accommodating cavity 7 is formed by the components including the cooling jacket, and used for placing the crucible 6 for crystal growth; the cooling jacket It includes a first cooling pipe 1 and a second cooling pipe 2. The first cooling pipe 1 is sleeved inside the second cooling pipe 2 and cooperates with each other to form a first interlayer 3 for passing the first cooling water. The thickness of the interlayer 3 increases linearly along the direction from the bottom of the crucible 6 to the opening. By setting the thickness of the first interlayer 3 to increase linearly along the direction from the bottom of the crucible 6 to the opening, the first interlayer 3 is used to pass the first cooling water, the cross-sectional area of ​​the first interlayer 3 increases linearly from the bottom of the crucible 6 to the opening, ...

Embodiment 2

[0112] Unless otherwise specified, the raw materials and gases in the examples of the present application are purchased through commercial channels. Among them, the purity of the silicon carbide raw material is 99.99%, and the purity of the high-purity inert gas (Ar or He) is greater than 99.999%.

[0113] Use the crystal growth device of Embodiment 1 to grow silicon carbide crystals, and the preparation method of silicon carbide crystals includes the following steps:

[0114] 1) Assemble: Assemble the cooling jacket and the flange structure to form the accommodating cavity 7, place the silicon carbide powder on the bottom of the crucible 6, place the silicon carbide seed crystal on the inner side wall of the crucible 6 cover, assemble the crucible 6 and the thermal insulation structure 17, The heat preservation structure 17 is arranged outside the crucible 6, and the assembled heat preservation structure 17 and the crucible 6 are placed in the accommodating cavity 7;

[0115...

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Abstract

The present application discloses a high-quality silicon carbide crystal and a growth method and device thereof, which include the following steps: 1) assembling: after installing a seed crystal unit in a crucible filled with raw materials, move it into a closed accommodating cavity; 2) long Crystal stage: control the crystal growth conditions in the accommodating cavity, adjust the temperature of the first cooling water to 8-16 ℃, and the flow rate to 18-54 mL / s, that is, to obtain the crystal; wherein, the accommodating cavity is composed of An assembly of cooling jackets is formed, the cooling jackets include a first cooling pipe and a second cooling pipe, the first cooling pipe being sleeved inside the second cooling pipe and cooperating to form a connection for passage into the second cooling pipe. A first interlayer of cooling water, the thickness of the first interlayer linearly increases along the direction from the bottom of the crucible to the opening. The crystal growth method can realize the controllable axial temperature gradient inside the crucible, thereby controlling the growth quality and growth rate of the crystal; at the same time, the axial temperature gradient formed in the crucible is more stable, which can further ensure the crystal growth quality.

Description

technical field [0001] The application relates to a high-quality silicon carbide crystal and a growth method and device thereof, belonging to the technical field of semiconductor growth. Background technique [0002] Silicon carbide single crystal is one of the most important third-generation semiconductor materials. It is widely used in power electronics, power electronics, and power electronics due to its large band gap, high saturation electron mobility, strong breakdown field, and high thermal conductivity. RF devices, optoelectronic devices and other fields. [0003] At present, the main preparation method of silicon carbide single crystal is the physical vapor transport (PVT) method. In the process of preparing crystals by PVT method, there are radial temperature gradients and axial temperature gradients in the growth chamber of the growing crystals. The seed crystal is crystallized into a single crystal of silicon carbide. [0004] In the process of crystal growth,...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C30B29/36C30B23/00
CPCC30B29/36C30B23/002
Inventor 李帅李函朔赵建国
Owner 上海天岳半导体材料有限公司
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