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Explosion-proof device and method for producing straightly-pulled and heavily phosphorus-doped single crystals

An explosion-proof device and single crystal technology, applied in the direction of single crystal growth, chemical instruments and methods, self-melting liquid pulling method, etc., can solve problems such as explosions and threats to employees' personal safety, to ensure safety and solve problems that are prone to explosions Effect

Active Publication Date: 2014-03-05
内蒙古中环领先半导体材料有限公司 +1
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Problems solved by technology

[0003] After the furnace is cooled and shut down, during the furnace cleaning process, the phosphorus element in the furnace wall, pipes and other parts is exposed to the air, and it is very easy to react with oxygen and spontaneously ignite, and then a chain reaction occurs and explodes, which poses a great threat to the personal safety of employees.

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  • Explosion-proof device and method for producing straightly-pulled and heavily phosphorus-doped single crystals

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Embodiment Construction

[0011] Below in conjunction with accompanying drawing and embodiment the present invention will be further described: with reference to figure 1 , an explosion-proof device for producing Czochralski heavily doped phosphorus single crystals includes an air cleaner 1, a gas flow valve 2, a gas flow meter 3, an annular pipeline 4, several branch pipelines 5 and connecting pipelines 6, the air cleaner 1. The gas flow valve 2 and the gas flow meter 3 are connected through a connecting pipe 6, one end of the connecting pipe 6 communicates with the annular pipe 4, one end of each branch pipe 5 communicates with the annular pipe 4, and the other end extends into the furnace body 7 inside. The horizontal heights of several branch pipes 5 are equal to or higher than the liquid level of the silicon melt. The connecting pipe 6, the annular pipe 4 and the branch pipe 5 are connected by welding.

[0012] An explosion-proof method for producing Czochralski heavy phosphorus-doped single cry...

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Abstract

The invention relates to an explosion-proof device and method for producing straightly-pulled and heavily phosphorus-doped single crystals. The explosion-proof device comprises an air purifier, a gas flow valve, a gas flowmeter, an annular pipe, multiple branch pipes and multiple connecting pipes, wherein the air purifier, the gas flow valve and the gas flowmeter are connected through the connecting pipes; one end of each connecting pipe is communicated with the annular pipe; and one end of each branch pipe is communicated with the annular pipe, and the other end of each branch pipe extends into a furnace body. The explosion-proof method comprises the following steps of: in the process of producing the heavily phosphorus-doped single crystals, after starting doping, opening the gas flow valve, introducing an amount of purified air, and stopping introducing the purified air until crystal pulling ends and solidification of pot material lasts for more than 1-5 minutes. By adopting the explosion-proof device and method provided by the invention, the problem of explosibility during fire cleaning in producing the straightly-pulled and heavily phosphorus-doped single crystals is effectively solved, thereby ensuring the safety of a process.

Description

technical field [0001] The invention relates to a production method of a Czochralski heavily doped phosphorus single crystal, in particular to an explosion-proof device and an explosion-proof method for producing a Czochralski heavily doped phosphorus single crystal. Background technique [0002] Czochralski heavy-doped silicon single crystal is an indispensable basic material in the semiconductor industry, and a large amount of Czochralski heavy-doped single crystal needs to be produced. Due to the low melting point and boiling point of phosphorus, it will continue to volatilize in the high-temperature silicon melt, so a large amount of elemental phosphorus needs to be added in the production process of Czochralski re-doped phosphorus single crystal. After doping, phosphorus vapor continuously volatilizes from the silicon melt during the pulling process of the single crystal, and is discharged from the furnace body along with the Ar gas. Due to the low temperature of the f...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C30B15/00
Inventor 康冬辉张雪囡李建弘李立伟徐强王林高树良沈浩平
Owner 内蒙古中环领先半导体材料有限公司
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