Add to ORKGParylene C (poly(monochloro-p-xylylene)) is a member of a unique family of thermoplastic, crystalline polymers. Compared to other polymers, parylene films are exceptionally conformal and chemically inert owing to its vapor deposition polymerization (VDP) coating process. These properties bring about many interesting possibilities for MEMS, particularly in microfluidic and bioMEMS applications. Dry etching techniques are required to define fine features in parylene films. For the first time, selective parylene C removal using oxygen-based plasmas is characterized for plasma etching, reactive ion etching (RIE), and deep reactive ion etching (DRIE) based methods. The ability of these techniques to achieve high aspect ratio (HAR) structures des...
This paper describes a new technique for strongly anchoring parylene (poly-para-xylylene) layers on ...
Parylene C is a promising material for constructing flexible, biocompatible and corrosion-resistant ...
2019-04-26Parylene provides many advantages as a material for thin-film implantable devices, however...
Parylene C, an emerging material in microelectromechanical systems, is of particular interest in bio...
A novel technique for producing high aspect ratio parylene structures via switching chemistry plasma...
Parylene C, an emerging material in microelectromechanical systems, is of particular interest in bio...
This paper describes parylene as an emerging bioMEMS material. Parylene has the unique feature of ro...
As dictated by the International Technology Roadmap for Semiconductors, there is an immediate need t...
Parylene C has been investigated for use as a sacrificial material in microfabrication. Although Par...
International audienceWe report on the plasma etching of thick (~23µm) Parylene C structures. Paryle...
International audienceHere we report on the plasma etching of thick parylene C in order to define fl...
Parylenes are used for a wide range of applications in microelectromechanical systems (MEMS) devices...
Parylenes are used for a wide range of applications in microelectromechanical systems (MEMS) devices...
Parylene C is a widely used polymer material in microfabrication because of its excellent properties...
This paper presents the first use of recrystallized parylene as masking material for silicon chemic...
This paper describes a new technique for strongly anchoring parylene (poly-para-xylylene) layers on ...
Parylene C is a promising material for constructing flexible, biocompatible and corrosion-resistant ...
2019-04-26Parylene provides many advantages as a material for thin-film implantable devices, however...
Parylene C, an emerging material in microelectromechanical systems, is of particular interest in bio...
A novel technique for producing high aspect ratio parylene structures via switching chemistry plasma...
Parylene C, an emerging material in microelectromechanical systems, is of particular interest in bio...
This paper describes parylene as an emerging bioMEMS material. Parylene has the unique feature of ro...
As dictated by the International Technology Roadmap for Semiconductors, there is an immediate need t...
Parylene C has been investigated for use as a sacrificial material in microfabrication. Although Par...
International audienceWe report on the plasma etching of thick (~23µm) Parylene C structures. Paryle...
International audienceHere we report on the plasma etching of thick parylene C in order to define fl...
Parylenes are used for a wide range of applications in microelectromechanical systems (MEMS) devices...
Parylenes are used for a wide range of applications in microelectromechanical systems (MEMS) devices...
Parylene C is a widely used polymer material in microfabrication because of its excellent properties...
This paper presents the first use of recrystallized parylene as masking material for silicon chemic...
This paper describes a new technique for strongly anchoring parylene (poly-para-xylylene) layers on ...
Parylene C is a promising material for constructing flexible, biocompatible and corrosion-resistant ...
2019-04-26Parylene provides many advantages as a material for thin-film implantable devices, however...