Add to ORKGParylene-C has been deposited on bare Si wafers by physical vapor deposition using the SCS Coating Systems. Results show a 12 µm thick Parylene-C film with 10 g of dimer and negligible thickness variation across a wafer. We find a positive linear relationship between film thickness and mass of dimer at a range of 1 g to 18 g. However, the Al boat for dimer was burnt with 18 g of dimer, suggesting multiple depositions with 1 g to 10 g of dimer are recommended to achieve the Parylene-C film thicker than 12 µm
Following the recent trend of miniaturization of MEMS and the approach to improve the comfort of med...
A process for the deposition of a solid layer onto a liquid is presented. The polymer poly-di-chloro...
Vapor deposition and polymerization of dichloro-diparaxylylene produces a parylene polymer film whos...
Parylene-C has been deposited on bare Si wafers by physical vapor deposition using the SCS Coating S...
Abstract Thanks to the excellent barrier property and fabrication accessibility, Parylene has been a...
This paper reports a novel and reliable process to prepare ultra-thin parylene film based on a princ...
Chemical Vapor Deposition Polymerization - The Growth and Properties of Parylene Thin Films is inten...
This paper reports a novel and reliable process to prepare ultra-thin parylene film based on a princ...
This paper reports the study of in-situ deposition temperature (ranging from 20°C to 80°C) effects o...
Herein, we reported several advanced parylene fabrication techniques for various micro/nano devices ...
Parylene-C is used for various biomedical devices because of its high conformity and biocompatibilit...
Presently, the research in the area of miniaturized devices drives the interest of developing a func...
Herein, we reported several advanced parylene fabrication techniques for various micro/nano devices ...
Parylene C is a promising material for constructing flexible, biocompatible and corrosion-resistant ...
Parylene is the generic name for members, e.g. parylene N,C,D of a thermoplastic polymer series deve...
Following the recent trend of miniaturization of MEMS and the approach to improve the comfort of med...
A process for the deposition of a solid layer onto a liquid is presented. The polymer poly-di-chloro...
Vapor deposition and polymerization of dichloro-diparaxylylene produces a parylene polymer film whos...
Parylene-C has been deposited on bare Si wafers by physical vapor deposition using the SCS Coating S...
Abstract Thanks to the excellent barrier property and fabrication accessibility, Parylene has been a...
This paper reports a novel and reliable process to prepare ultra-thin parylene film based on a princ...
Chemical Vapor Deposition Polymerization - The Growth and Properties of Parylene Thin Films is inten...
This paper reports a novel and reliable process to prepare ultra-thin parylene film based on a princ...
This paper reports the study of in-situ deposition temperature (ranging from 20°C to 80°C) effects o...
Herein, we reported several advanced parylene fabrication techniques for various micro/nano devices ...
Parylene-C is used for various biomedical devices because of its high conformity and biocompatibilit...
Presently, the research in the area of miniaturized devices drives the interest of developing a func...
Herein, we reported several advanced parylene fabrication techniques for various micro/nano devices ...
Parylene C is a promising material for constructing flexible, biocompatible and corrosion-resistant ...
Parylene is the generic name for members, e.g. parylene N,C,D of a thermoplastic polymer series deve...
Following the recent trend of miniaturization of MEMS and the approach to improve the comfort of med...
A process for the deposition of a solid layer onto a liquid is presented. The polymer poly-di-chloro...
Vapor deposition and polymerization of dichloro-diparaxylylene produces a parylene polymer film whos...