Preferentially deposited lubricant to prevent anti-stiction in micromechanical systems
First Claim
1. A process for forming a micromechanical device assembly, the process comprising:
- positioning the micromechanical device within a processing region that is formed between one or more inner surfaces of one or more walls of an enclosure;
forming a fluid channel in the one or more walls of the enclosure, wherein the fluid channel extends between one of the one or more inner surfaces and an exterior surface of one of the one or more walls; and
delivering a plurality of lubricant molecules to the processing region through the formed fluid channel, wherein the plurality of lubricant molecules have a head group that is adapted to bond to a surface of one of the one or more walls.
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Abstract
Embodiments of the present invention generally relate to a device that has an improved usable lifetime due to the presence of a lubricant that reduces the likelihood of stiction occurring between the various moving parts in an electromechanical device. Embodiments of the present invention also generally include a device, and a method of forming a device, that has one or more surfaces or regions that have a volume of lubricant disposed thereon that acts as a ready supply of “fresh” lubricant to prevent stiction occurring between interacting components found within the device. In one aspect, components within the volume of lubricant form a gas or vapor phase that reduces the chances of stiction-related failure in the formed device. In one example, aspects of this invention may be especially useful for fabricating and using micromechanical devices, such as MEMS devices, NEMS devices, or other similar thermal or fluidic devices.
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Citations
12 Claims
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1. A process for forming a micromechanical device assembly, the process comprising:
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positioning the micromechanical device within a processing region that is formed between one or more inner surfaces of one or more walls of an enclosure; forming a fluid channel in the one or more walls of the enclosure, wherein the fluid channel extends between one of the one or more inner surfaces and an exterior surface of one of the one or more walls; and delivering a plurality of lubricant molecules to the processing region through the formed fluid channel, wherein the plurality of lubricant molecules have a head group that is adapted to bond to a surface of one of the one or more walls. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A process for forming a micromechanical device assembly, the process comprising:
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positioning the micromechanical device within a processing region that is formed between one or more inner surfaces of one or more walls of an enclosure; forming a fluid channel in the one or more walls of the enclosure, wherein the fluid channel extends between one of the one or more inner surfaces and an exterior surface of one of the one or more walls; delivering a first plurality of lubricant molecules to the processing region, wherein the first plurality of lubricant molecules have a head group that is adapted to bond to a surface of one of the one or more walls; and delivering a second plurality of lubricant molecules to the processing region, wherein the plurality of second lubricant molecules have a head group that is adapted to bond to an end region of each of the first plurality of lubricant molecules. - View Dependent Claims (8, 9, 10, 11, 12)
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Specification