Process for wafer level treatment to reduce stiction and passivate micromachined surfaces and compounds used therefor
CAFCFirst Claim
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1. A method for producing microelectromechanical devices comprising the steps of:
- inserting a wafer having a plurality of microelectromechanical devices fabricated on a surface thereof into one of an oven or a furnace;
heating a compound having anti-stiction properties within said oven or furnace to a temperature sufficient to vaporize said compound;
depositing said vapor on said wafer surface so as to treat the surface of said wafer with said compound;
removing said wafer from said oven or furnace; and
sawing said treated wafer to form a plurality of microelectromechanical devices having a device surface treated with said anti-stiction compound, wherein said depositing step is carried out before said sawing step.
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Abstract
This invention discloses a process for forming durable anti-stiction surfaces on micromachined structures while they are still in wafer form (i.e., before they are separated into discrete devices for assembly into packages). This process involves the vapor deposition of a material to create a low stiction surface. It also discloses chemicals which are effective in imparting an anti-stiction property to the chip. These include polyphenylsiloxanes, silanol terminated phenylsiloxanes and similar materials.
45 Citations
8 Claims
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1. A method for producing microelectromechanical devices comprising the steps of:
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inserting a wafer having a plurality of microelectromechanical devices fabricated on a surface thereof into one of an oven or a furnace; heating a compound having anti-stiction properties within said oven or furnace to a temperature sufficient to vaporize said compound; depositing said vapor on said wafer surface so as to treat the surface of said wafer with said compound; removing said wafer from said oven or furnace; and sawing said treated wafer to form a plurality of microelectromechanical devices having a device surface treated with said anti-stiction compound, wherein said depositing step is carried out before said sawing step.
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2. A method for producing microelectromechanical devices from a wafer comprising the steps of:
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heating a compound operative to imparte anti-stiction properties to a temperature sufficient to vaporize said compound, said compound having organic content; depositing said vapor on a surface of the wafer having a plurality of microelectromechanical devices fabricated thereon so as to treat the surface of said wafer with said compound; and separating said plurality of microelectromechanical devices on said treated wafer into discrete devices, wherein said depositing step is carried out before said separating step. - View Dependent Claims (3, 4, 5, 6, 7, 8)
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Specification