Add to ORKGIn this paper, a method for the fabrication of convex corners in (100)-Silicon in KOH-etchant of (100)-Silicon is presented. Based on the identification of the planes accuring at convex corners during the etching in this solution and the determination of the etching rate ratio of these planes in relation to the rate of the (100)-planes, special structures suited for the compensation of the undercutting in the case of very narrow contoures were developed. With the help of these structures it is feasible to realize bent V-grooves of structures with a very low ratio between lateral expansion and etching depth, e.g. a descrete pyramid-trunk, formed by (111)-planes or (411)-planes, with minimum dimensions on the wafer surface
A maskless convex corner compensation technique in a 25 wt% TMAH water solution at the temperature o...
In this paper, a new concave corner compensation for etching of (100) silicon substrates in 25 wt % ...
Microelectromechanical System (MEMS) are systems of micron-sized structures and typically integrated...
The planes occurring at convex corners during anisotropic etching of (100)-silicon in aqueous KOH we...
This paper investigates the anistropic etching characteristics and convex corner undercut mechanism ...
In wet anisotropic etching based silicon bulk micromachining, undercutting, which has both advantage...
In this paper, the mechanism of convex corner (CC) undercutting of Si-{100} in pure aqueous KOH solu...
Compensation structures are a necessity for wet anisotropic etching of silicon in order to prevent t...
In wet anisotropic etching, the etched profile of undercut convex corners depends on the type of etc...
This paper presents fabrication of microcantilevers on {100} oriented Si substrate by bulk micromach...
Abstract\ud \ud We combine experiment, theory and simulation to design and fabricate 3D structures w...
This paper presents etching of convex corners with sides along and crystallographic directions in ...
Wet anisotropic etching based silicon micromachining is an important technique to fabricate freestan...
This paper presents microcantilever fabrication on {100} oriented Si substrate using bulk micromachi...
In wet anisotropic etching, the etched profile of undercut convex corners depends on the type of etc...
A maskless convex corner compensation technique in a 25 wt% TMAH water solution at the temperature o...
In this paper, a new concave corner compensation for etching of (100) silicon substrates in 25 wt % ...
Microelectromechanical System (MEMS) are systems of micron-sized structures and typically integrated...
The planes occurring at convex corners during anisotropic etching of (100)-silicon in aqueous KOH we...
This paper investigates the anistropic etching characteristics and convex corner undercut mechanism ...
In wet anisotropic etching based silicon bulk micromachining, undercutting, which has both advantage...
In this paper, the mechanism of convex corner (CC) undercutting of Si-{100} in pure aqueous KOH solu...
Compensation structures are a necessity for wet anisotropic etching of silicon in order to prevent t...
In wet anisotropic etching, the etched profile of undercut convex corners depends on the type of etc...
This paper presents fabrication of microcantilevers on {100} oriented Si substrate by bulk micromach...
Abstract\ud \ud We combine experiment, theory and simulation to design and fabricate 3D structures w...
This paper presents etching of convex corners with sides along and crystallographic directions in ...
Wet anisotropic etching based silicon micromachining is an important technique to fabricate freestan...
This paper presents microcantilever fabrication on {100} oriented Si substrate using bulk micromachi...
In wet anisotropic etching, the etched profile of undercut convex corners depends on the type of etc...
A maskless convex corner compensation technique in a 25 wt% TMAH water solution at the temperature o...
In this paper, a new concave corner compensation for etching of (100) silicon substrates in 25 wt % ...
Microelectromechanical System (MEMS) are systems of micron-sized structures and typically integrated...