Systems and methods for preparing GaN and related materials for micro assembly
First Claim
Patent Images
1. A method of preparing released or releasable structures from a silicon native device substrate, the method comprising:
- depositing at least one of GaN, AlGaN, InGaN, InGaAlN, and SiN on a native device substrate comprising Si (1 1
1), thereby forming an epitaxial material;
forming devices using the epitaxial material on the native device substrate;
forming releasable structures comprising the devices by removing at least a portion of the epitaxial material from around at least a portion of the devices in the epitaxial material, thereby partially exposing the native device substrate;
forming anchoring structures and tethering structures that are at least partially in contact with a side of the releasable structure opposite the native device substrate and at least partially in contact with the native device substrate;
removing silicon material underneath the releasable structures with an etchant to form tethers connecting the releasable structures to anchors, thereby forming printable structures comprising the devices, wherein the position and orientation of the printable structures is maintained by the tethers and anchors; and
exposing the native device substrate and the printable structures connected to the native device substrate by anchoring structures and tethering structures to one or more chemical agents.
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Abstract
The disclosed technology relates generally to a method and system for micro assembling GaN materials and devices to form displays and lighting components that use arrays of small LEDs and high-power, high-voltage, and or high frequency transistors and diodes. GaN materials and devices can be formed from epitaxy on sapphire, silicon carbide, gallium nitride, aluminum nitride, or silicon substrates. The disclosed technology provides systems and methods for preparing GaN materials and devices at least partially formed on several of those native substrates for micro assembly.
180 Citations
26 Claims
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1. A method of preparing released or releasable structures from a silicon native device substrate, the method comprising:
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depositing at least one of GaN, AlGaN, InGaN, InGaAlN, and SiN on a native device substrate comprising Si (1 1
1), thereby forming an epitaxial material;forming devices using the epitaxial material on the native device substrate; forming releasable structures comprising the devices by removing at least a portion of the epitaxial material from around at least a portion of the devices in the epitaxial material, thereby partially exposing the native device substrate; forming anchoring structures and tethering structures that are at least partially in contact with a side of the releasable structure opposite the native device substrate and at least partially in contact with the native device substrate; removing silicon material underneath the releasable structures with an etchant to form tethers connecting the releasable structures to anchors, thereby forming printable structures comprising the devices, wherein the position and orientation of the printable structures is maintained by the tethers and anchors; and exposing the native device substrate and the printable structures connected to the native device substrate by anchoring structures and tethering structures to one or more chemical agents. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
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15. A method of preparing printable materials for micro assembly from a native device substrate using an intermediate substrate, the method comprising:
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depositing one or more materials on the native device substrate, thereby forming an epitaxial material; forming devices with the epitaxial material on the native device substrate; forming releasable structures comprising the devices by removing at least a portion of the epitaxial material from around at least a portion of the devices in the epitaxial material, thereby partially exposing the native device substrate; forming patterned tethering and anchoring structures that are in contact with a side of the device opposite the native device substrate and in contact with only a portion of the exposed native device substrate; forming patterned sacrificial structures completely over the devices and the patterned tethering and anchoring structures on a side of the devices opposite the native device substrate, over only a portion or none of the patterned tethering and anchoring structures in contact with the exposed native device substrate, and only partially in contact with the exposed native device substrate, the patterned sacrificial structures differentially etchable from the native device substrate and the patterned tethering and anchoring structure; temporarily bonding the epitaxial material to an intermediate substrate and separating the epitaxial material from the native device substrate, thereby inverting the epitaxial material for micro assembly; releasing the devices from the intermediate substrate by removal of at least a portion of the sacrificial structures with an etchant to form tethers connecting the devices to anchors; and transferring the released materials for micro assembly on the intermediate substrate to an intermediate stamp. - View Dependent Claims (16, 17, 18, 19, 20)
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21. A method of preparing released materials for micro assembly from a native sapphire substrate via an intermediate substrate, the method comprising:
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depositing one or more materials on the native sapphire substrate to form an epitaxial material; forming devices with the epitaxial material on the native sapphire substrate; forming a tether structure that is insoluble to an etchant for releasing the materials for micro assembly from the intermediate substrate, wherein the tether structure is in contact with a side of the device opposite the native sapphire substrate and in contact with only a portion of the exposed native sapphire substrate; forming patterned sacrificial structures completely over the devices and the tether structure on a side of the devices opposite the native sapphire substrate, over only a portion or none of the tether structure in contact with the exposed native sapphire substrate, and only partially in contact with the exposed native sapphire substrate, the patterned sacrificial structures differentially etchable from the native sapphire substrate and the tether structure; adhering the materials for micro assembly to an intermediate substrate to form a bonded pair of substrates; performing a laser-lift off process, thereby separating the materials for micro assembly from the native sapphire substrate and separating the bonded pair of substrates, wherein; the materials for micro assembly are thereby inverted, and the sapphire substrate is transparent to laser illumination that is absorbed strongly by an absorbing layer on the sapphire substrate such that upon exposure to the laser illumination the absorbing layer at least partially decomposes or otherwise forms an interface that can initiate separation between the sapphire substrate and the materials for micro assembly; and releasing the materials for micro assembly from the intermediate substrate by removing at least a portion of a sacrificial layer, thereby removing the selectively removable layer underneath the releasable structures and forming released, micro assemble-able GaN materials or devices from sapphire native substrates via the intermediate substrate. - View Dependent Claims (22, 23)
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24. A method of preparing printable materials for micro assembly from a native device substrate using an intermediate substrate having a controlled tackiness, the method comprising:
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depositing one or more materials on the native device substrate, thereby forming an epitaxial material; forming devices with the epitaxial material on the native device substrate; forming releasable structures comprising the devices by removing at least a portion of the epitaxial material from around at least a portion of the devices in the epitaxial material, thereby partially exposing the native device substrate; temporarily bonding the epitaxial material to an intermediate substrate with a controlled tackiness; separating the epitaxial material from the native device substrate and thereby inverting the epitaxial material for micro assembly; and transferring the released materials for micro assembly on the intermediate substrate to an intermediate stamp, the intermediate stamp also having controlled tackiness such that the intermediate stamp can remove the materials for micro assembly from the intermediate substrate. - View Dependent Claims (25, 26)
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Specification