Add to ORKGCurrent trends in semiconductor device manufacturing impose extremely stringent requirements on nanoscale processing techniques, both in terms of accurately controlling material properties and in terms of precisely controlling nanometer dimensions. To take nanostructuring by dry etching to the next level, there is a fast growing interest in so-called atomic layer etching processes, which are considered the etching counterpart of atomic layer deposition processes. In this article, past research efforts are reviewed and the key defining characteristics of atomic layer etching are identified, such as cyclic step-wise processing, self-limiting surface chemistry, and repeated removal of atomic layers (not necessarily a full monolayer) of the mat...
This article discusses key elementary surface-reaction processes in state-of-the-art plasmaetching a...
The atomic layer technique is generating a lot of excitement and study due to its profound physics a...
The growing need for increasingly miniaturized devices has placed high importance and demands on nan...
Current trends in semiconductor device manufacturing impose extremely stringent requirements on nano...
Atomic layer deposition (ALD) and atomic layer etching (ALE) are two important techniques in the sem...
In the semiconductors and related industries, the fabrication of nanostructures and nanopatterns has...
Following the example of ALD, its etching counterpart atomic layer etching (ALE) is currently being ...
Following the example of ALD, its etching counterpart atomic layer etching (ALE) is currently being ...
An approach for wet-chemical atomic layer etching (WALE) of semiconductors is described. The surface...
In modern electronics, device downscaling demands atomic precision control and Atomic Layer Etching ...
With the fast-growing request for miniaturized electronic components, in the last few decades deposi...
Bottom-up nanofabrication by area-selective atomic layer deposition (ALD) is currently gaining momen...
Conventional (3D) etching in silicon is often based on the ‘Bosch ’ plasma etch with alternating hal...
Atomic layer deposition (ALD) is a method that allows for the deposition of thin films with atomic l...
Self-aligned thin film patterning has become a critical technique for the manufacturing of advanced ...
This article discusses key elementary surface-reaction processes in state-of-the-art plasmaetching a...
The atomic layer technique is generating a lot of excitement and study due to its profound physics a...
The growing need for increasingly miniaturized devices has placed high importance and demands on nan...
Current trends in semiconductor device manufacturing impose extremely stringent requirements on nano...
Atomic layer deposition (ALD) and atomic layer etching (ALE) are two important techniques in the sem...
In the semiconductors and related industries, the fabrication of nanostructures and nanopatterns has...
Following the example of ALD, its etching counterpart atomic layer etching (ALE) is currently being ...
Following the example of ALD, its etching counterpart atomic layer etching (ALE) is currently being ...
An approach for wet-chemical atomic layer etching (WALE) of semiconductors is described. The surface...
In modern electronics, device downscaling demands atomic precision control and Atomic Layer Etching ...
With the fast-growing request for miniaturized electronic components, in the last few decades deposi...
Bottom-up nanofabrication by area-selective atomic layer deposition (ALD) is currently gaining momen...
Conventional (3D) etching in silicon is often based on the ‘Bosch ’ plasma etch with alternating hal...
Atomic layer deposition (ALD) is a method that allows for the deposition of thin films with atomic l...
Self-aligned thin film patterning has become a critical technique for the manufacturing of advanced ...
This article discusses key elementary surface-reaction processes in state-of-the-art plasmaetching a...
The atomic layer technique is generating a lot of excitement and study due to its profound physics a...
The growing need for increasingly miniaturized devices has placed high importance and demands on nan...