Add to ORKGWe review what can be said on wet chemical etching of single crystals from the viewpoint of the science of crystal growth. Starting point is that there are smooth and rough crystal surfaces. The kinetics of smooth faces is controlled by a nucleation barrier that is absent on rough faces. The latter therefore etch faster by orders of magnitude. The analysis of the diamond crystal structure reveals that the { 11 1) face is the only smooth face in this lattice- other faces might be smooth only because of surface reconstruction. In this way we explain the minimum of the etchrate in KOH:H20 in the <001> direction. Two critical predictions concerning the shape of the minimum of the etchrate close to <001> and the transition from isotr...
This paper aims at an explanation of the instability of etch fronts of single crystalline material. ...
We combine ab initio and Monte Carlo simulations in multiscale modelling of anisotropic wet chemical...
The anisotropic etching behavior of single-crystal silicon and the behavior of SiO2 and Si3N4 in an ...
We review what can be said on wet chemical etching of single crystals from the viewpoint of the scie...
For silicon etched in KOH the micro-morphology of any surface, no matter the crystallographic orient...
A new model is proposed that explains the anisotropy of the etch rate of single crystalline silicon ...
The rich variety of micron-scale features observed in the orientation-dependent surface morphology o...
We present a method to describe the orientation dependence of the etch rate in anisotropic etching s...
Etching of monocrystalline silicon in alkaline based solutions leads to a deep minimum in the etch r...
We present a method to describe the orientation dependence of the etch rate of silicon, or any other...
In Part I we introduced a construction method for analytical orientation dependent growth and etch r...
The microelectronics industry has long sought an aqueous etchant that could produce atomically flat ...
Abstract. The rich variety of micron-scale features observed in the orientation-dependent surface mo...
Anisotropic wet-chemical etching of silicon in alkaline solutions is a key technology in the fabrica...
Anisotropic wet-chemical etching is a key technology in the fabrication of sensors and actuators bec...
This paper aims at an explanation of the instability of etch fronts of single crystalline material. ...
We combine ab initio and Monte Carlo simulations in multiscale modelling of anisotropic wet chemical...
The anisotropic etching behavior of single-crystal silicon and the behavior of SiO2 and Si3N4 in an ...
We review what can be said on wet chemical etching of single crystals from the viewpoint of the scie...
For silicon etched in KOH the micro-morphology of any surface, no matter the crystallographic orient...
A new model is proposed that explains the anisotropy of the etch rate of single crystalline silicon ...
The rich variety of micron-scale features observed in the orientation-dependent surface morphology o...
We present a method to describe the orientation dependence of the etch rate in anisotropic etching s...
Etching of monocrystalline silicon in alkaline based solutions leads to a deep minimum in the etch r...
We present a method to describe the orientation dependence of the etch rate of silicon, or any other...
In Part I we introduced a construction method for analytical orientation dependent growth and etch r...
The microelectronics industry has long sought an aqueous etchant that could produce atomically flat ...
Abstract. The rich variety of micron-scale features observed in the orientation-dependent surface mo...
Anisotropic wet-chemical etching of silicon in alkaline solutions is a key technology in the fabrica...
Anisotropic wet-chemical etching is a key technology in the fabrication of sensors and actuators bec...
This paper aims at an explanation of the instability of etch fronts of single crystalline material. ...
We combine ab initio and Monte Carlo simulations in multiscale modelling of anisotropic wet chemical...
The anisotropic etching behavior of single-crystal silicon and the behavior of SiO2 and Si3N4 in an ...