Deposition device for depositing semiconductor material on a heated substrate
First Claim
1. A deposition device for depositing semiconductor material on a heated substrate body comprising a baseplate, having a stationary current leadthrough, which is guided through the baseplate of the deposition device;
- an electrode mount with an underside, which is positioned above the current leadthrough, and an upper side, which is connected to a carbon electrode into which a substrate body is fitted; and
wherein the carbon electrode has a thermal conductivity of >
145 W/m*K and a coefficient of thermal expansion which is matched to and equal to the coefficient of thermal expansion of silicon.
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Accused Products
Abstract
A device is provided for depositing semiconductor material on a heated substrate body, having a stationary current leadthrough, which is guided through the baseplate of the deposition device. This is an electrode mount with an underside, which is arranged above the current leadthrough, and an upper side, which is connected to a carbon electrode into which a substrate body can be fitted. The carbon electrode has a thermal conductivity of >145 W/m*K and a coefficient of thermal expansion which is matched to the coefficient of thermal expansion of silicon.
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Citations
7 Claims
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1. A deposition device for depositing semiconductor material on a heated substrate body comprising a baseplate, having a stationary current leadthrough, which is guided through the baseplate of the deposition device;
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an electrode mount with an underside, which is positioned above the current leadthrough, and an upper side, which is connected to a carbon electrode into which a substrate body is fitted; and
wherein the carbon electrode has a thermal conductivity of >
145 W/m*K and a coefficient of thermal expansion which is matched to and equal to the coefficient of thermal expansion of silicon.- View Dependent Claims (2, 3, 4, 5, 6, 7)
wherein the thermal conductivity of the carbon electrode is greater than 145 W/m*K. -
3. The deposition device as claimed in claim 1,
wherein the thermal conductivity of the carbon electrode is greater than 165 W/m*K. -
4. The deposition device as claimed in claim 1,
wherein the thermal conductivity of the carbon electrode is 170 W/m*K. -
5. The deposition device as claimed in claim 1, wherein the coefficient of thermal expansion is between 2*10−
- 6 and 6×
10−
6.
- 6 and 6×
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6. The deposition device as claimed in claim 1,
wherein the coefficient of thermal expansion is between 3.0× - 10−
6 and 3.6×
10−
6.
- 10−
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7. The deposition device as claimed in claim 1,
wherein the coefficient of thermal expansion is 3.3× - 10−
6.
- 10−
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Specification