Image sensor and manufacturing method thereof

摘要

An image sensor and a manufacturing method thereof are provided. The image sensor includes: a photo diode; a first-conductive-type isolating layer; a second-conductive-type lightly-doped region formed in the first-conductive-type semiconductor substrate; a first-conductive-type lightly-doped region formed under the second-conductive-type lightly-doped region, where the second-conductive-type lightly-doped region is isolated from the second-conductive-type region by the first-conductive-type lightly-doped region; a gate structure of a transfer transistor; and a floating diffusion region which is second-conductive-type heavily-doped. In the image sensor, the second-conductive-type lightly-doped region is formed to be connected with the floating diffusion region, thus, a distance between the floating diffusion region and the photo diode may be reduced which may enable photo-induced carriers to be transmitted from the photo diode to the floating diffusion region more rapidly, and further increase the transmission efficiency of the photo-induced carriers.

主权项

1. A method for manufacturing an image sensor, comprising:
A: forming a second-conductive-type region in a first-conductive-type semiconductor substrate to form a photo diode, wherein the second-conductive-type region serves as a region for collecting photo-induced carriers, and forming a first-conductive-type isolating layer above the photo diode in the first-conductive-type semiconductor substrate; B: forming a second-conductive-type lightly-doped region and a first-conductive-type lightly-doped region under the second-conductive-type lightly-doped region, wherein the second-conductive-type lightly-doped region is isolated from the second-conductive-type region by the first-conductive-type lightly-doped region, wherein the second-conductive-type lightly-doped region and the first-conductive-type lightly-doped region have a self-alignment feature, and the second-conductive-type lightly-doped region and the first-conductive-type lightly-doped region do not contact the second-conductive-type region and the first-conductive-type isolating layer; C: forming a gate structure of a transfer transistor on a surface of the first-conductive-type semiconductor substrate by a deposition process and a patterning process, wherein the gate structure covers at least a portion of the second-conductive-type lightly-doped region; and D: forming a floating diffusion region which is second-conductive-type heavily-doped by a doping process, the floating diffusion region contacting with the second-conductive-type lightly-doped region, wherein in the step B, photoresist is coated on the surface of the first-conductive-type semiconductor substrate, a photolithography process is performed on the photoresist using a first mask plate to expose and develop to form a patterned photoresist, an etching process is performed by taking the patterned photoresist as a mask to form a groove on the surface of the first-conductive-type semiconductor substrate, a doping process is performed to a first portion of the first-conductive-type semiconductor substrate which corresponds to the groove to form the first-conductive-type lightly-doped region, an inner side of the groove is etched to enlarge the groove, and a doping process is performed to a second portion of the first-conductive-type semiconductor substrate which corresponds to the enlarged groove to form the second-conductive-type lightly-doped region.