20240049464. VERTICAL SEMICONDUCTOR DEVICE AND FABRICATION METHOD THEREOF simplified abstract (SK hynix Inc.)

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VERTICAL SEMICONDUCTOR DEVICE AND FABRICATION METHOD THEREOF

Organization Name

SK hynix Inc.

Inventor(s)

Eun-Ho Kim of Suwon (KR)

Eun-Joo Jung of Icheon (KR)

Jong-Hyun Yoo of Suwon (KR)

Ki-Jun Yun of Yongin (KR)

Sung-Hoon Lee of Icheon (KR)

VERTICAL SEMICONDUCTOR DEVICE AND FABRICATION METHOD THEREOF - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240049464 titled 'VERTICAL SEMICONDUCTOR DEVICE AND FABRICATION METHOD THEREOF

Simplified Explanation

The patent application describes a method for fabricating a semiconductor device. Here is a simplified explanation of the abstract:

  • The method involves creating an alternating stack by stacking layers of dielectric material and sacrificial material on a substrate.
  • A vertical trench is formed to divide the upper multi-layered stack into dummy stacks.
  • An asymmetric stepped trench is then formed, extending downward from the vertical trench to divide the lower multi-layered stack into a pad stack and a dummy pad stack.
  • The asymmetric stepped trench includes a first stepped sidewall at the edge of the pad stack and a second stepped sidewall at the edge of the dummy pad stack, occupying less area than the first stepped sidewall.

Potential applications of this technology:

  • Fabrication of semiconductor devices such as integrated circuits and transistors.
  • Manufacturing of electronic components for various industries including telecommunications, consumer electronics, and automotive.

Problems solved by this technology:

  • Provides a method for creating an alternating stack in a semiconductor device, allowing for improved performance and functionality.
  • Enables the formation of vertical and asymmetric stepped trenches, which can be used for various purposes such as isolation, interconnects, and device integration.

Benefits of this technology:

  • Enhanced device performance and functionality due to the precise formation of alternating stacks and trenches.
  • Improved manufacturing efficiency and cost-effectiveness by utilizing a simplified fabrication process.
  • Enables the development of smaller and more compact semiconductor devices with higher integration density.


Original Abstract Submitted

a method for fabricating semiconductor device includes forming an alternating stack that includes a lower multi-layered stack and an upper multi-layered stack by alternately stacking a dielectric layer and a sacrificial layer over a substrate, forming a vertical trench that divides the upper multi-layered stack into dummy stacks, and forming an asymmetric stepped trench that is extended downward from the vertical trench to divide the lower multi-layered stack into a pad stack and a dummy pad stack, wherein forming the asymmetric stepped trench includes forming a first stepped sidewall that is defined at an edge of the pad stack, and forming a second stepped sidewall that is defined at an edge of the dummy pad stack and occupies less area than the first stepped sidewall.

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