This paper describes a new fabrication method for the simultaneous creation of multi-level single-crystalline silicon structures, each with a different thickness. The method combines deep dry etching and wet anisotropic etching of silicon in order to avoid multiple back-side alignment steps and timed etches. The levels are defined in a single lithographic step from the front side. The fabrication involves etching of deep trenches from the front side of the wafer followed by a refill and etch back process. The final structure is defined by maskless wet etching of the bulk silicon. The progress of the anisotropic wet etch is impeded by the geometric pattern at the bottom of the trenches, and thus structures with various thickness ra...
The focus of this paper is on designing useful compliant micro-mechanisms of high-aspect-ratio which...
This paper presents a study of various well-known release techniques (bulk- and surface-micromachini...
The principal aim of this work was to characterize deep silicon etching at sample temperatures well-...
[[abstract]]This study presents a bulk micromachining fabrication platform on the (100) single cryst...
Various process steps such as oxidation, diffusion, etching, lithography, etc. are employed for the...
The present invention illustrates a bulk silicon etching technique that yields straight sidewalls, t...
Wet anisotropic etching based silicon micromachining is an important technique to fabricate freestan...
Micromachining is the most widely used technique for the fabrication of various types of microelectr...
Introducing a single silicon nanowire with a known orientation and dimensions to a specific layout l...
Micromachining of ultra-high frequency waveguide structures requires etching with vertical sidewalls...
We describe and demonstrate a fabrication process for silicon sieves with highly-uniform, micron-siz...
A technique is presented that provides planarization after a very deep etching step in silicon. This...
A bulk micromachining technology for fabrication of micro electro mechanical systems (MEMS) in a sta...
Fabrication of precision micro- and nanoscale structures in silicon demands exacting control over pa...
Reactive Ion Etching (RIE) is an important process widely used in the fabrication of micro-electro m...
The focus of this paper is on designing useful compliant micro-mechanisms of high-aspect-ratio which...
This paper presents a study of various well-known release techniques (bulk- and surface-micromachini...
The principal aim of this work was to characterize deep silicon etching at sample temperatures well-...
[[abstract]]This study presents a bulk micromachining fabrication platform on the (100) single cryst...
Various process steps such as oxidation, diffusion, etching, lithography, etc. are employed for the...
The present invention illustrates a bulk silicon etching technique that yields straight sidewalls, t...
Wet anisotropic etching based silicon micromachining is an important technique to fabricate freestan...
Micromachining is the most widely used technique for the fabrication of various types of microelectr...
Introducing a single silicon nanowire with a known orientation and dimensions to a specific layout l...
Micromachining of ultra-high frequency waveguide structures requires etching with vertical sidewalls...
We describe and demonstrate a fabrication process for silicon sieves with highly-uniform, micron-siz...
A technique is presented that provides planarization after a very deep etching step in silicon. This...
A bulk micromachining technology for fabrication of micro electro mechanical systems (MEMS) in a sta...
Fabrication of precision micro- and nanoscale structures in silicon demands exacting control over pa...
Reactive Ion Etching (RIE) is an important process widely used in the fabrication of micro-electro m...
The focus of this paper is on designing useful compliant micro-mechanisms of high-aspect-ratio which...
This paper presents a study of various well-known release techniques (bulk- and surface-micromachini...
The principal aim of this work was to characterize deep silicon etching at sample temperatures well-...