SEMICONDUCTOR DEVICE AND METHOD FOR FORMING THE SAME

Organization Name

TAIWAN SEMICONDUCTOR MANUFACTURING COMPANY, LTD.

Inventor(s)

Chiung-Yuan Lin of Hsinchu County (TW)

Tsung-Fu Yang of Hsinchu City (TW)

Weicheng Chu of Tainan City (TW)

Ching Liang Chang of Tainan City (TW)

Chen Han Chou of Tainan City (TW)

Chia-Ho Yang of Taoyuan City (TW)

Tsung-Kai Lin of Nantou County (TW)

Tsung-Han Lin of Hsinchu City (TW)

Chih-Hung Chung of Hsinchu City (TW)

Chenming Hu of Oakland CA (US)

SEMICONDUCTOR DEVICE AND METHOD FOR FORMING THE SAME - A simplified explanation of the abstract

This abstract first appeared for US patent application 17575147 titled 'SEMICONDUCTOR DEVICE AND METHOD FOR FORMING THE SAME

Simplified Explanation

The patent application describes a semiconductor device that uses a 2-D material layer made of a transition metal dichalcogenide (TMD). The device includes a substrate, source/drain contacts, and a gate electrode. The 2-D material layer has source/drain regions and a channel region between them. The binding energy of transition metal atoms in the channel region is different from that in the source/drain regions.

• The semiconductor device includes a 2-D material layer made of a transition metal dichalcogenide (TMD).
• The 2-D material layer has source/drain regions and a channel region between them.
• The binding energy of transition metal atoms in the channel region is different from that in the source/drain regions.
• The device includes a substrate, source/drain contacts, and a gate electrode.

Potential applications of this technology:

• Improved performance and efficiency in semiconductor devices.
• Enhanced control over the behavior of transition metal atoms in the 2-D material layer.

Problems solved by this technology:

• In conventional semiconductor devices, the binding energy of transition metal atoms is the same throughout the material layer, limiting control and performance.
• This technology solves the problem by introducing a difference in binding energy between the channel region and the source/drain regions.

Benefits of this technology:

• Increased control over the behavior of transition metal atoms allows for better device performance.
• The use of a 2-D material layer made of a transition metal dichalcogenide offers potential improvements in efficiency and functionality.

Original Abstract Submitted

A semiconductor device includes a substrate, a 2-D material layer, source/drain contacts, and a gate electrode. The 2-D material layer is over the substrate, the 2-D material layer includes source/drain regions and a channel region between the source/drain regions, in which the 2-D material layer is made of a transition metal dichalcogenide (TMD). The source/drain contacts are in contact with source/drain regions of the 2-D material layer, in which a binding energy of transition metal atoms at the channel region of the 2-D material layer is different from a binding energy of the transition metal atoms at the source/drain regions of the 2-D material layer. The gate electrode is over the substrate.