Method for controlling doping density of doped region of semiconductor device accurately
A doping concentration and precise control technology, applied in the field of microelectronics, can solve the problems of poor doping accuracy and high cost, and achieve the effects of simple equipment, increased yield, and simplified process flow
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Embodiment 1
[0017] In the first step, first oxidize the silicon wafer that needs to be doped with impurities, the oxidation temperature is controlled at 500°C, and the oxidation thickness is 100 angstroms; in the second step, the latex source coating solution (the latex The source is phosphorus-containing silica latex source), and the thickness of the coating layer is 2500 angstroms; the third step is to bake the coated silicon wafer under an infrared lamp at 130° for 15 minutes, so that the organic solvent in the collagen can play a role. ; The fourth step is to put the silicon wafer on the quartz glass plate, send it into the diffusion furnace, and diffuse it at a high temperature of 1150° for 2.5 hours; , such a semiconductor device with precisely controlled doping concentration in the doped region is completed.
Embodiment 2
[0019] In the first step, first oxidize the silicon wafer that needs to be doped with impurities, the oxidation temperature is controlled at 800°C, and the oxidation thickness is 150 angstroms; in the second step, the latex source coating solution (the latex The source is phosphorus-containing silica latex source), and the thickness of the coating layer is 2650 angstroms; the third step is to bake the coated silicon wafer under an infrared lamp at 150° for 18 minutes to make the organic solvent in the collagen play a role. ; The fourth step is to put the silicon wafer on the quartz glass plate, send it into the diffusion furnace, and diffuse it at a high temperature of 1200° for 4 hours; , such a semiconductor device with precisely controlled doping concentration in the doped region is completed.
Embodiment 3
[0021] In the first step, first oxidize the silicon wafer that needs to be doped with impurities, the oxidation temperature is controlled at 1000°C, and the oxidation thickness is 200 angstroms; in the second step, the latex source coating solution (the latex The source is phosphorus-containing silica latex source), and the thickness of the coating layer is 2800 angstroms; the third step is to bake the coated silicon wafer under an infrared lamp at 180° for 20 minutes, so that the organic solvent in the collagen can play a role. ; The fourth step is to place the silicon wafer on the quartz glass plate and send it into the diffusion furnace for 4.5 hours of diffusion at a high temperature of 1250°; the fifth step is to put the diffused silicon wafer into the constant temperature zone to cool and introduce oxygen , such a semiconductor device with precisely controlled doping concentration in the doped region is completed.
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