Abstract: A pixel including a substrate of a first conductivity type and having a surface, a photodetector of a second conductivity type that is opposite the first conductivity type, a floating diffusion region of the second conductivity type, a transfer region between the photodetector and the floating diffusion, a gate positioned above the transfer region and partially overlapping the photodetector, and a pinning layer of the first conductivity type extending at least across the photodetector from the gate.

Abstract: A pixel including a substrate of a first conductivity type and having a surface, a photodetector of a second conductivity type that is opposite the first conductivity type, a floating diffusion region of the second conductivity type, a transfer region between the photodetector and the floating diffusion, a gate positioned above the transfer region and partially overlapping the photodetector, and a pinning layer of the first conductivity type extending at least across the photodetector from the gate.

Abstract: CMOS image sensor having high sensitivity and low crosstalk, particularly at far-red to infrared wavelengths, and a method for fabricating a CMOS image sensor. A CMOS image sensor has a substrate, an epitaxial layer above the substrate, and a plurality of pixels extending into the epitaxial layer for receiving light. The image sensor also includes at least one of a horizontal barrier layer between the substrate and the epitaxial layer for preventing carriers generated in the substrate from moving to the epitaxial layer, and a plurality of lateral barrier layers between adjacent ones of the plurality of pixels for preventing lateral diffusion of electrons in the epitaxial layer.

Abstract: A pixel including a substrate of a first conductivity type and having a surface, a photodetector of a second conductivity type that is opposite the first conductivity type, a floating diffusion region of the second conductivity type, a transfer region between the photodetector and the floating diffusion, a gate positioned above the transfer region and partially overlapping the photodetector, and a pinning layer of the first conductivity type extending at least across the photodetector from the gate.

Abstract: A pixel including a substrate of a first conductivity type, a photodetector of a second conductivity type that is opposite the first conductivity type and configured to convert incident light to a charge, a floating diffusion of the second conductivity, and a transfer region between the photodetector and floating diffusion. A gate is formed above the transfer region and partially overlaps the photodetector and is configured to transfer charge from the photodetector to the floating diffusion. A pinning layer of the first conductivity type extends at least across the photodetector from the gate. A channel region of the first conductivity type extends generally from a midpoint of the gate at least across the photodiode and is formed by an implant of a dopant of the first conductivity and having a concentration such that a dopant concentration of the transfer region is greater proximate to the photodetector than proximate to the floating diffusion.