CN214361830U - High-quality SiC single crystal preparation device - Google Patents

Abstract

The utility model relates to a high quality SiC single crystal preparation facilities belongs to the crystal growth field. Solves the problems of poor quality, nonuniform growth and insufficient thickness of SiC single crystals. Including upper cover, seed crystal, lower cover, crucible main part, filter screen, heat retainer, power rod, quartz capsule and heating coil, place the filter screen in the crucible main part, the upper portion of crucible main part sets up lower cover and upper cover, and the lower cover is located the upper cover downside, and the seed crystal is connected to the downside of lower cover, and the power rod is connected to the upside of upper cover, and crucible main part outer wall cladding has the heat retainer, and the quartz capsule is inboard in being arranged in to the crucible main part, the outside installation heating coil of quartz capsule. The impurities can be effectively removed, and simultaneously, the secondary introduction of new impurities is prevented, and the crystal quality is effectively improved; the silicon carbide raw material is fixed by a graphite filter screen, so that carbon particles can be effectively prevented from rising along with gas during purification and crystal growth; the rotation of the seed crystal can be controlled during the crystal growth period, and the dislocation defect caused by the difference of gas flow rates at different positions during the crystal growth can be prevented.

Description

High-quality SiC single crystal preparation device

Technical Field

The utility model relates to a SiC single crystal preparation device belongs to the crystal growth field.

Background

SiC is used as a compound with stable C and Si, the crystal lattice structure of the compound consists of two sub-lattices which are densely arranged, and the properties of SiC make the compound become a preferred material of a semiconductor device with high frequency, high power, high temperature resistance and radiation resistance, and the compound can be used in the monitoring of a ground nuclear reactor system, crude oil exploration, environment monitoring and extreme environments in the fields of aviation, aerospace, radar, communication systems, high-power electronic converters, automobile motors and the like. In addition, the radiation wavelength of the light emitting diode prepared by SiC can cover the wave band from blue light to purple light, and the light emitting diode has wide application prospect in the fields of optical information display systems, optical integrated circuits and the like.

Physical Vapor Transport (PVT) is today the predominant method for the preparation of wide bandgap semiconductor materials. However, the quality of the crystal is poor due to the problems of the thermal field and the raw material carrying device, the growth is not uniform enough, the thickness cannot meet the market demand, and the quality of the silicon carbide single crystal is affected by the existence of impurities such as C, N, B in the silicon carbide raw material.

In view of the above problems, it is desirable to provide a high quality SiC single crystal manufacturing apparatus to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides a high quality SiC single crystal preparation facilities has solved that SiC single crystal quality is not good, grows evenly inadequately, and thickness can not reach the problem of market demand. A brief summary of the present invention is provided below in order to provide a basic understanding of some aspects of the present invention. It should be understood that this summary is not an exhaustive overview of the invention. It is not intended to identify key or critical elements of the invention or to delineate the scope of the invention.

The technical scheme of the utility model:

a high-quality SiC single crystal production apparatus, characterized in that: the crucible comprises an upper cover, seed crystals, a lower cover, a crucible main body, a filter screen, a heat insulator, a power rod, a quartz tube and a heating coil, wherein the filter screen is placed in the crucible main body;

four lower sliding blocks are processed on the edge of the lower cover in a circumferential array mode, and four lower through holes are processed on the lower cover in a circumferential array mode; four upper sliding blocks are processed on the edge circumference of the upper cover in an array mode, four upper through holes are processed on the upper cover in the circumference array mode, stop blocks are connected between every two adjacent upper through holes and are arranged at the positions corresponding to the lower through holes;

the crucible body is cylindrical, four vertical slideways, a first annular slideway and a second annular slideway are machined on the opening side of the upper part of the crucible body, the four vertical slideways are arranged in a circumferential array mode, and the vertical slideways penetrate through the first annular slideway and are communicated with the second annular slideway; the lower sliding block is connected with the crucible main body through a second annular slideway, and the upper sliding block is connected with the crucible main body through a first annular slideway.

Preferably: the crucible main body is fixedly arranged in the quartz tube through an inner support;

the lifting device also comprises a rotating mechanism, a lifting mechanism and a connecting frame, wherein the rotating mechanism is connected with the lifting mechanism through the connecting frame;

the rotating mechanism comprises an upper frame, a motor, a driving gear, a connecting rod, a lower frame, a driven gear and a driving shaft, wherein the upper frame is connected with the lower frame through the three connecting rods arranged in a circumferential array;

the lifting mechanism comprises a hydraulic rod, an external sleeve, an internal telescopic arm, antifriction wheel seats and antifriction wheels, wherein the lower part of the internal telescopic arm is symmetrically provided with the two antifriction wheel seats; two ends of the hydraulic rod are respectively connected with the external sleeve and the internal telescopic arm; the inner telescopic arm is connected with the upper frame through a connecting frame.

Preferably: the outer sleeve and the inner telescopic arm are both square.

Preferably: the filter screen is the cylindrical barrel of open end installation annular plate, and the filter screen is the graphite filter screen, and the dog is the graphite dog.

The utility model discloses following beneficial effect has:

1. the impurities can be effectively removed, and simultaneously, the secondary introduction of new impurities is prevented, and the crystal quality is effectively improved;

2. the silicon carbide raw material is fixed by a graphite filter screen, so that carbon particles can be effectively prevented from rising along with gas during purification and crystal growth;

3. the rotation of the seed crystal can be controlled during the crystal growth period, and the dislocation defect caused by the difference of gas flow rates at different positions during the crystal growth can be prevented.

Drawings

FIG. 1 is a schematic view of the construction of an apparatus for producing a high-quality SiC single crystal;

FIG. 2 is a perspective view of a high-quality SiC single crystal production apparatus;

FIG. 3 is a front view of an apparatus for producing a high-quality SiC single crystal;

FIG. 4 is a cross-sectional view A-A of FIG. 3;

FIG. 5 is a partial isometric view at C in FIG. 4;

FIG. 6 is a cross-sectional view B-B of FIG. 3;

FIG. 7 is a schematic structural view of the upper cover and the lower cover;

FIG. 8 is a schematic view of the structure of the crucible body;

fig. 9 is a schematic view of a screen construction.

In the figure, 1-upper cover, 2-seed crystal, 3-lower cover, 4-crucible body, 5-filter screen, 6-raw material, 7-heat insulator, 8-power rod, 9-quartz tube, 10-heating coil, 11-connecting rack, 12-inner rack, 101-upper slide block, 102-stop block, 103-upper through hole, 21-rotating mechanism, 22-lifting mechanism, 211-upper rack, 212-motor, 213-driving gear, 214-connecting rod, 215-lower rack, 216-driven gear, 217-driving shaft, 221-hydraulic rod, 222-outer sleeve, 223-inner telescopic arm, 224-antifriction wheel seat, 225-antifriction wheel, 301-lower through hole, 302-lower slide block, 401-vertical slide way, 402-first annular ramp, 403-second annular ramp.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described below with reference to specific embodiments shown in the accompanying drawings. It should be understood that the description is intended to be illustrative only and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

The utility model discloses the connection that mentions divide into fixed connection and can dismantle the connection, fixed connection (for being undetachable connection) includes but not limited to conventional fixed connection modes such as hem connection, rivet connection, adhesive connection and welded connection, can dismantle the connection including but not limited to conventional dismantlement modes such as threaded connection, buckle connection, pin joint and hinged joint, when not clearly prescribing a limit to concrete connection mode, defaulting always can find at least one kind of connected mode in current connected mode and can realize this function, and the technical staff in the art can select by oneself as required. For example: the fixed connection selects welding connection, and the detachable connection selects hinge connection.

The first embodiment is as follows: the embodiment is described with reference to fig. 1-9, and the high-quality SiC single crystal preparation apparatus of the embodiment comprises an upper cover 1, a seed crystal 2, a lower cover 3, a crucible main body 4, a filter screen 5, a heat insulator 7, a power rod 8, a quartz tube 9 and a heating coil 10, wherein the filter screen 5 is placed in the crucible main body 4, the lower cover 3 and the upper cover 1 are arranged on the upper part of the crucible main body 4, the lower cover 3 is positioned on the lower side of the upper cover 1, the seed crystal 2 is adhered to the lower side of the lower cover 3, the power rod 8 is connected to the upper side of the upper cover 1, the heat insulator 7 is coated on the outer wall of the crucible main body 4, the crucible main body 4 is placed inside the quartz tube 9, and the heating coil 10 is installed on the outer side of the quartz tube 9;

four lower sliding blocks 302 are processed on the edge of the lower cover 3 in a circumferential array mode, and four lower through holes 301 which are arranged in a circumferential array mode are processed on the lower cover 3; four upper sliding blocks 101 are processed on the edge of the upper cover 1 in a circumferential array mode, four upper through holes 103 are processed on the upper cover 1 in a circumferential array mode, stop blocks 102 are connected between every two adjacent upper through holes 103, and the stop blocks 102 are arranged at the positions corresponding to the lower through holes 301;

the crucible body 4 is cylindrical, four vertical slideways 401, a first annular slideway 402 and a second annular slideway 403 are machined on the opening side of the upper part of the crucible body 4, the four vertical slideways 401 are arranged in a circumferential array, and the vertical slideways 401 penetrate through the first annular slideway 402 and are communicated with the second annular slideway 403; the lower slide block 302 is connected to the crucible main body 4 through a second annular slide 403, and the upper slide block 101 is connected to the crucible main body 4 through a first annular slide 402.

The second embodiment is as follows: the present embodiment will be described with reference to fig. 1 to 6, and the crucible main body 4 of the present embodiment is fixedly disposed in a quartz tube 9 via an inner support 12;

the device also comprises a rotating mechanism 21, a lifting mechanism 22 and a connecting frame 11, wherein the rotating mechanism 21 is connected with the lifting mechanism 22 through the connecting frame 11;

the rotating mechanism 21 comprises an upper frame 211, a motor 212, a driving gear 213, a connecting rod 214, a lower frame 215, a driven gear 216 and a driving shaft 217, wherein the upper frame 211 and the lower frame 215 are connected through the connecting rods 214 arranged in a circumferential array, the upper frame 211 is fixedly connected with the motor 212, the output end of the motor 212 is connected with the driving gear 213, the lower frame 215 is connected with the driving shaft 217 through a bearing, the driving shaft 217 is connected with the driven gear 216, the driven gear 216 is meshed with the driving gear 213, and the driving shaft 217 is connected with the power rod 8;

the lifting mechanism 22 comprises a hydraulic rod 221, an outer sleeve 222, an inner telescopic arm 223, an antifriction wheel seat 224 and an antifriction wheel 225, wherein two antifriction wheel seats 224 are symmetrically arranged at the lower part of the inner telescopic arm 223, the antifriction wheel seat 224 is provided with the antifriction wheel 225, the inner telescopic arm 223 is positioned at the inner side of the outer sleeve 222, and the antifriction wheel 225 is in contact with the outer sleeve 222; the grinding reducing wheel 225 plays a role in supporting and reducing friction force, the service life of the device is prolonged, and two ends of the hydraulic rod 221 are respectively connected with the outer sleeve 222 and the inner telescopic arm 223; the inner telescopic arm 223 is connected with the upper frame 211 through the connecting frame 11;

the quartz tube 9 and the lifting mechanism 22 are fixed on the platform, the quartz tube 9 is in a barrel shape, the lower frame 215 is a circular disc coaxially mounted with the quartz tube 9, the hydraulic rod 221 retracts to drive the inner telescopic arm 223 to retract, the inner telescopic arm 223 drives the upper frame 211 to move downwards through the connecting frame 11, the lower frame 215 is in sliding connection with the quartz tube 9, the upper cover 1 is not in contact with the lower cover 3 during purification, in-situ purification is implemented, the purified raw material is prevented from being secondarily polluted, secondary introduction of new impurities is prevented while impurities are effectively removed, and the crystal quality is effectively improved; when sealing, the upper slide 101 continues to move downwards along the vertical slideway 401, and when the upper slide 101 moves to the position where the first annular slideway 402 intersects with the vertical slideway 401, the stopper 102 is inserted into the lower through hole 301; the motor 212 drives the driving gear 213 to rotate, the driving gear 213 drives the driven gear 216 to rotate, the driven gear 216 drives the driving shaft 217 to rotate, so that the upper cover 1 and the lower cover 3 rotate along the first annular slide way 402 and the second annular slide way 403 respectively, the rotation of seed crystals is controlled during crystal growth, the dislocation defect caused by the growth of the crystals due to the difference of gas flow rates at different positions is prevented, the quality of the crystals is high, and the thickness of the crystals is increased.

The third concrete implementation mode: referring to the embodiment and the high-quality SiC single crystal manufacturing apparatus of the embodiment, the outer sleeve 222 and the inner telescopic arm 223 are both square in shape, as described with reference to fig. 2.

The fourth concrete implementation mode: the embodiment is described with reference to fig. 1 and 9, and the high-quality SiC single crystal manufacturing apparatus of the embodiment is a cylindrical barrel with an annular plate mounted at an opening end of the cylindrical barrel, the filter 5 is a graphite filter, the raw material 6 is a silicon carbide raw material, the raw material 6 is fixed by the graphite filter, carbon particles can be effectively prevented from rising along with gas during purification and crystal growth, the carbon particles are prevented from attaching to the surface of a seed crystal to form a carbon coating, and the stopper 102 is a graphite stopper.

The fifth concrete implementation mode: the present embodiment will be described with reference to fig. 1 to 9, and the method for producing a high-quality SiC single crystal of the present embodiment includes the steps of:

the method comprises the following steps: placing raw materials 6 in a crucible main body 4, covering the raw materials 6 by using a filter screen 5, arranging the raw materials 6 along the outer wall of the filter screen 5, bonding seed crystals on a lower cover 3, sequentially installing the lower cover 3 and an upper cover 1 on the crucible main body 4, and wrapping a heat insulation body 7 outside the crucible main body 4;

step two: adjusting the position of the heating coil 10 to locate the whole thermal field at a suitable height inside the heating coil 10, in this embodiment, it should be understood that a person skilled in the art can install a lifting bracket for carrying the heating coil 10 on the platform by means of the prior art, and the lifting bracket can adjust the height of the heating coil 10, for example, the heating coil 10 is connected by a heat-resistant insulating material connected with a hydraulic rod to realize height adjustment of the heating coil 10;

step three: heating by the heating coil 10, purifying at the temperature of 1200-1400 ℃, and allowing impurities to flow out through the upper through hole 103 and the lower through hole 301, so that the purity of powder is improved, and the crystal defects are reduced;

step four: after purification is carried out for 8-15h, the upper cover 1 moves downwards along the vertical slide way 401, and the stop block 102 is located at the corresponding position of the lower through hole 301 at the moment, so that the stop block 102 enters the lower through hole 301, the sealing of the crucible main body 4 is realized, and silicon carbide gas is prevented from flowing out during crystal growth;

step five: the power of a heating coil 10 is gradually increased to enable the internal temperature of the crucible body 4 to reach 2200 ℃, the crucible body enters a crystal growth stage to carry out heat preservation, and the upper cover 1 is controlled by a power rod 8 to drive the lower cover 3 to slowly rotate in the process, so that the dislocation defect of crystal growth caused by the difference of gas flow rates at different positions is prevented;

step six: after the growth stage is finished, the heating power of the heating coil 10 is gradually reduced, and the crucible body 4 enters a temperature reduction stage;

step seven: and naturally cooling, and taking out the crystal.

It should be noted that, in the above embodiments, as long as the technical solutions can be aligned and combined without contradiction, those skilled in the art can exhaust all possibilities according to the mathematical knowledge of the alignment and combination, and therefore the present invention does not describe the technical solutions after alignment and combination one by one, but it should be understood that the technical solutions after alignment and combination have been disclosed by the present invention.

This embodiment is only illustrative of the patent and does not limit the scope of protection thereof, and those skilled in the art can make modifications to its part without departing from the spirit of the patent.

Claims (4)

1. A high-quality SiC single crystal production apparatus, characterized in that: the crucible comprises an upper cover (1), seed crystals (2), a lower cover (3), a crucible main body (4), a filter screen (5), a heat insulator (7), a power rod (8), a quartz tube (9) and a heating coil (10), wherein the filter screen (5) is placed in the crucible main body (4), the lower cover (3) and the upper cover (1) are arranged on the upper part of the crucible main body (4), the lower cover (3) is positioned on the lower side of the upper cover (1), the seed crystals (2) are connected to the lower side of the lower cover (3), the power rod (8) is connected to the upper side of the upper cover (1), the heat insulator (7) is coated on the outer wall of the crucible main body (4), the crucible main body (4) is placed on the inner side of the quartz tube (9), and the heating coil (10) is installed on the outer side of the quartz tube (9);

four lower sliding blocks (302) are processed on the edge of the lower cover (3) in a circumferential array mode, and four lower through holes (301) are processed on the lower cover (3) in a circumferential array mode; four upper sliding blocks (101) are processed on the edge of the upper cover (1) in a circumferential array mode, four upper through holes (103) are processed on the upper cover (1) in a circumferential array mode, stop blocks (102) are connected between every two adjacent upper through holes (103), and the stop blocks (102) are arranged at positions corresponding to the lower through holes (301);

the crucible body (4) is cylindrical, four vertical slideways (401), a first annular slideway (402) and a second annular slideway (403) are machined on the opening side of the upper part of the crucible body (4), the four vertical slideways (401) are arranged in a circumferential array mode, and the vertical slideways (401) penetrate through the first annular slideway (402) and are communicated with the second annular slideway (403); the lower sliding block (302) is connected with the crucible main body (4) through a second annular sliding way (403), and the upper sliding block (101) is connected with the crucible main body (4) through a first annular sliding way (402).

2. A high-quality SiC single crystal production apparatus according to claim 1, wherein: the crucible main body (4) is fixedly arranged in the quartz tube (9) through an inner support (12);

the device also comprises a rotating mechanism (21), a lifting mechanism (22) and a connecting frame (11), wherein the rotating mechanism (21) is connected with the lifting mechanism (22) through the connecting frame (11);

the rotating mechanism (21) comprises an upper frame (211), a motor (212), a driving gear (213), a connecting rod (214), a lower frame (215), a driven gear (216) and a driving shaft (217), wherein the upper frame (211) is connected with the lower frame (215) through the connecting rods (214) arranged in a three-circle array, the upper frame (211) is fixedly connected with the motor (212), the output end of the motor (212) is connected with the driving gear (213), the lower frame (215) is connected with the driving shaft (217) through a bearing, the driving shaft (217) is connected with the driven gear (216), the driven gear (216) is meshed with the driving gear (213), and the driving shaft (217) is connected with a power rod (8);

the lifting mechanism (22) comprises a hydraulic rod (221), an outer sleeve (222), an inner telescopic arm (223), an antifriction wheel seat (224) and an antifriction wheel (225), wherein the two antifriction wheel seats (224) are symmetrically arranged at the lower part of the inner telescopic arm (223), the antifriction wheel (225) is mounted on the antifriction wheel seat (224), the inner telescopic arm (223) is located on the inner side of the outer sleeve (222), and the antifriction wheel (225) is in contact with the outer sleeve (222); two ends of the hydraulic rod (221) are respectively connected with the outer sleeve (222) and the inner telescopic arm (223); the inner telescopic arm (223) is connected with the upper frame (211) through a connecting frame (11).

3. A high-quality SiC single crystal production apparatus according to claim 2, wherein: the outer sleeve (222) and the inner telescopic arm (223) are both square.

4. A high-quality SiC single crystal production apparatus according to claim 1, wherein: the filter screen (5) is a cylindrical barrel with an open end provided with an annular plate, the filter screen (5) is a graphite filter screen, and the stop block (102) is a graphite stop block.

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