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Preparation method of tunnelling oxidized layer in imbedded type quick flash storage

A technology for tunneling oxide layer and memory, applied in semiconductor/solid-state device manufacturing, electrical components, circuits, etc., can solve problems such as unrealistic process technology, limitation of tunnel oxide layer thickness, and impact on device reliability.

Inactive Publication Date: 2003-12-03
INST OF MICROELECTRONICS CHINESE ACAD OF SCI
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AI Technical Summary

Problems solved by technology

In general flash memory devices, the thickness of the tunneling oxide layer should not be less than 7 nanometers, mainly because the tunneling oxide layer smaller than 7 nanometers will have a large stress-induced leakage current and abnormal leakage current during device reading and writing, thus affecting The reliability of the device, so the thickness of the tunnel oxide layer is limited; and for the use of some methods to improve the capacitive coupling rate between the control gate and the floating mountain, for the process technology of 0.35 microns and below, these complex process technologies are also Therefore, in reducing the gate voltage of flash memory devices suitable for SOC applications, the preparation of tunnel oxide layers with low barrier heights has become a promising approach. Technology

Method used

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  • Preparation method of tunnelling oxidized layer in imbedded type quick flash storage
  • Preparation method of tunnelling oxidized layer in imbedded type quick flash storage
  • Preparation method of tunnelling oxidized layer in imbedded type quick flash storage

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Embodiment Construction

[0020] see figure 1 As shown, a method for preparing a tunnel oxide layer in an embedded flash memory of the present invention is characterized in that the method includes the following steps,

[0021] 1) First, the silicon wafer 101 on which the tunneling oxide layer 105 is to be grown is cleaned, and the cleaning solution is No. 1 cleaning solution and No. 2 cleaning solution (which is the prior art);

[0022] 2) Then use a dry etching machine to carry out fluorination treatment on the dry etching machine, under the pressure of 500mTorr, pass 100SCCM CF 4 Gas flow, the height is 1.1cm, the power is 10W, and the time is 1-2 minutes;

[0023] 3) After the treatment, the silicon wafer 101 is cleaned conventionally, and then cleaned in isopropanol cleaning solution for 1 minute;

[0024] 4) Send the silicon wafer 101 into a high-temperature oxidation furnace for treatment, which is to oxidize at 850° C. for 5 minutes, then carry out nitriding at 850° C. in a nitrogen oxide atm...

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Abstract

A process for preparing the tunnelling oxidized layer in embedded flash memory includes such steps as washing the silicon chip, using dry etching machine to fluorinate it, conventional washing, washing it in the solution of isopropanol for 1 min, and high-temp oxidizing.

Description

technical field [0001] The invention belongs to the field of semiconductor devices, and relates to a method for preparing a tunnel oxide layer in an embedded flash memory suitable for SOC (System On A Chip) applications. Background technique [0002] With the development of semiconductor integrated circuit technology, the feature size of the device is continuously reduced, and the operating voltage and power consumption of the device are continuously reduced. In the stacked gate flash memory, as the feature size of the device is reduced or a new device structure , the source-drain operating voltage can be effectively reduced, while the gate voltage strongly depends on the capacitive coupling ratio of the control gate and the floating gate, the thickness of the tunnel oxide layer, the barrier height of the tunnel oxide layer, and the stress-induced leakage current (Stress Induced LeakageCurrent, SILC) and abnormal leakage current (Anomalous Leakage Current). In general flash...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01L21/304H01L21/306H01L21/31H10B99/00
Inventor 欧文钱鹤
Owner INST OF MICROELECTRONICS CHINESE ACAD OF SCI
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