Forming Dielectric Film With High Resistance to Tilting

Organization Name

Taiwan Semiconductor Manufacturing Co., Ltd.

Inventor(s)

Ming-Tsung Lee of Hsinchu (TW)

Yi-Wen Pan of New Taipei City (TW)

Tzu-Nung Lu of Taoyuan City (TW)

You-Lan Li of Hsinchu (TW)

Chung-Chi Ko of Nantou (TW)

Forming Dielectric Film With High Resistance to Tilting - A simplified explanation of the abstract

This abstract first appeared for US patent application 17651990 titled 'Forming Dielectric Film With High Resistance to Tilting

Simplified Explanation

The patent application describes a method for forming a structure in a semiconductor device using a dielectric layer and a sacrificial spacer layer. The method involves depositing the dielectric layer over a substrate and etching it to expose a conductive feature. A sacrificial spacer layer is then deposited and patterned to form a ring around the conductive feature. A second conductive feature is formed within the ring, and then a portion of the ring is removed to create an air spacer.

• The method involves depositing a dielectric layer over a substrate and etching it to expose a conductive feature.
• A sacrificial spacer layer is then deposited and patterned to form a ring around the conductive feature.
• A second conductive feature is formed within the ring, and then a portion of the ring is removed to create an air spacer.

Potential applications of this technology:

• Semiconductor devices
• Integrated circuits
• Microprocessors

Problems solved by this technology:

• Formation of a structure with improved electrical coupling between conductive features
• Creation of an air spacer for improved device performance

Benefits of this technology:

• Enhanced electrical coupling between conductive features
• Improved device performance through the use of an air spacer

Original Abstract Submitted

A method includes depositing a dielectric layer over a substrate, and etching the dielectric layer to form an opening and to expose a first conductive feature underlying the dielectric layer. The dielectric layer is formed using a precursor including nitrogen therein. The method further includes depositing a sacrificial spacer layer extending into the opening, and patterning the sacrificial spacer layer to remove a bottom portion of the sacrificial spacer layer. A vertical portion of the sacrificial spacer layer in the opening and on sidewalls of the dielectric layer is left to form a ring. A second conductive feature is formed in the opening. The second conductive feature is encircled by the ring, and is over and electrically coupled to the first conductive feature. At least a portion of the ring is removed to form an air spacer.