Abstract: A glucose sensor comprises a conducting back electrode. The glucose sensor also comprises a silicon substrate in electrical contact with the conducting back electrode. The glucose sensor also comprises a dielectric layer disposed on the silicon substrate. The glucose sensor also comprises a pH sensing layer disposed on the dielectric layer. The glucose sensor also comprises a chemical layer disposed on the pH sensing layer, wherein the chemical layer is in contact with an aqueous solution. The glucose sensor also comprises a conductive electrode disposed on the dielectric layer, where in the conductive electrode is in contact with the aqueous solution.

Abstract: Methods for preparing a patterned directed self-assembly layer generally include providing a substrate having a block copolymer layer including a first phase-separated polymer defining a first pattern in the block copolymer layer and a second phase-separated polymer defining a second pattern in the block copolymer layer. The block polymer layer is exposed to a gas pulsing carbon monoxide polymer. The gas pulsing is configured to provide multiple cycles of an etching plasma and a deposition plasma to selectively remove the second pattern of the second phase-separated polymer while leaving behind the first pattern of the first phase-separated polymer on the substrate.

Abstract: Methods for preparing a patterned directed self-assembly layer generally include providing a substrate having a block copolymer layer including a first phase-separated polymer defining a first pattern in the block copolymer layer and a second phase-separated polymer defining a second pattern in the block copolymer layer. The block polymer layer is exposed to a gas pulsing carbon monoxide polymer. The gas pulsing is configured to provide multiple cycles of an etching plasma and a deposition plasma to selectively remove the second pattern of the second phase-separated polymer while leaving behind the first pattern of the first phase-separated polymer on the substrate.

Abstract: Methods for preparing a patterned directed self-assembly layer generally include providing a substrate having a block copolymer layer including a first phase-separated polymer defining a first pattern in the block copolymer layer and a second phase-separated polymer defining a second pattern in the block copolymer layer. The block polymer layer is exposed to a gas pulsing carbon monoxide polymer. The gas pulsing is configured to provide multiple cycles of an etching plasma and a deposition plasma to selectively remove the second pattern of the second phase-separated polymer while leaving behind the first pattern of the first phase-separated polymer on the substrate.

Abstract: A glucose sensor comprises a conducting back electrode. The glucose sensor also comprises a silicon substrate in electrical contact with the conducting back electrode. The glucose sensor also comprises a dielectric layer disposed on the silicon substrate. The glucose sensor also comprises a pH sensing layer disposed on the dielectric layer. The glucose sensor also comprises a chemical layer disposed on the pH sensing layer, wherein the chemical layer is in contact with an aqueous solution. The glucose sensor also comprises a conductive electrode disposed on the dielectric layer, where in the conductive electrode is in contact with the aqueous solution.

Abstract: A sensing device includes a substrate having a source region and a drain region formed therein. A gate structure is formed over the substrate and includes a gate dielectric and a gate conductor. The gate conductor is formed on the gate dielectric and disposed between the source region and the drain region. A dielectric layer is formed over the substrate and has a depth configured to form a well over the gate conductor. A gate extension is formed in contact with or as part of the gate conductor and including a conductive material covering one or more surfaces of the well.

Abstract: A sensing device includes a substrate having a source region and a drain region formed therein. A gate structure is formed over the substrate and includes a gate dielectric and a gate conductor. The gate conductor is formed on the gate dielectric and disposed between the source region and the drain region. A dielectric layer is formed over the substrate and has a depth configured to form a well over the gate conductor. A gate extension is formed in contact with or as part of the gate conductor and including a conductive material covering one or more surfaces of the well.

Abstract: A sensing device includes a substrate having a source region and a drain region formed therein. A gate structure is formed over the substrate and includes a gate dielectric and a gate conductor. The gate conductor is formed on the gate dielectric and disposed between the source region and the drain region. A dielectric layer is formed over the substrate and has a depth configured to form a well over the gate conductor. A gate extension is formed in contact with or as part of the gate conductor and including a conductive material covering one or more surfaces of the well.