Patent application number | Description | Published |
20120091598 | HANDLING LAYER FOR TRANSPARENT SUBSTRATE - A device is provided which includes a transparent substrate. An opaque layer is disposed on the transparent substrate. A conductive layer disposed on the opaque layer. The opaque layer and the conductive layer form a handling layer, which may be used to detect and/or align the transparent wafer during fabrication processes. In an embodiment, the conductive layer includes a highly-doped silicon layer. In an embodiment, the opaque layer includes a metal. In embodiment, the device may include a MEMs device. | 04-19-2012 |
20130256259 | MEMS NANOSTRUCTURES AND METHODS OF FORMING THE SAME - A method of forming of MEMS nanostructures includes a portion of a substrate is recessed to form a plurality of mesas in the substrate. Each of the plurality of mesas has a top surface and a sidewall surface. A light reflecting layer is deposited over the substrate thereby covering the top surface and the sidewall surface of each mesa. A protection layer is formed over the light reflecting layer. An ARC layer is formed over the protection layer. An opening in a photo resist layer is formed over the ARC layer over each mesa. A portion of the ARC layer, the protection layer and the light reflecting layer are removed through the opening to expose the top surface of each mesa. The photo resist layer and the ARC layer over the top surface of each mesa are removed. | 10-03-2013 |
20140262783 | OPTICAL DETECTION FOR BIO-ENTITIES - An integrated semiconductor device for manipulating and processing bio-entity samples and methods are described. The device includes a lower substrate, at least one optical signal conduit disposed on the lower substrate, at least one cap bonding pad disposed on the lower substrate, a cap configured to form a capped area, and disposed on the at least one cap bonding pad, a microfluidic channel, wherein a first side of the microfluidic channel is formed on the lower substrate and a second side of the microfluidic channel is formed on the cap, a photosensor array coupled to sensor control circuitry, and logic circuitry coupled to the fluidic control circuitry, and the sensor control circuitry. | 09-18-2014 |
20140335640 | BIOMEMS AND PLANAR LIGHT CIRCUIT WITH INTEGRATED PACKAGE - A BioMEMS microelectromechanical apparatus and for fabricating the same is disclosed. A substrate is provided with at least one signal conduit formed on the substrate. A sacrificial layer of sacrificial material may be deposited on the signal conduit and optionally patterned to remove sacrificial material from outside the packaging covered area. A bonding layer may be deposited on at least a portion of the signal conduit and on the sacrificial layer when included. The bonding layer may be planarized and patterned to form one or more cap bonding pads and define a packaging covered area. A cap may be bonded on the cap bonding pad to define a capped area and so that the signal conduit extends from outside the capped area to inside the capped area. Additionally, a test material such as a fluid may be provided within the capped area. | 11-13-2014 |
20150024533 | METHOD OF FORMING A SEMICONDUCTOR DEVICE - A method of forming a semiconductor device includes depositing a light reflecting layer over a substrate. The method also includes forming a protection layer over the light reflecting layer. The method further includes forming an anti-reflective coating (ARC) layer over the protection layer. The method additionally includes forming an opening in the ARC layer, the protection layer and the light reflecting layer exposing the substrate. The method also includes removing the ARC layer in a wet solution comprising H2O2, the ARC layer being exposed to the H | 01-22-2015 |