Add to ORKGThis study reports the penetration properties of various Parylenes (i.e., C, N and HT) inside long microchannels. The work broadly covers the effects of the dimer type, loaded dimer mass, substrate temperature and channel size on the penetration length, i.e., the length that Parylene can be deposited into the microchannel from the inlet. Understanding the mechanism of Parylene penetration into microchannel helps to develop mass-producible inner surface protection design and process for microfluidic devices
This paper presents new fabrication technologies and materials for microfluidic systems with reduced...
Parylene-C has been deposited on bare Si wafers by physical vapor deposition using the SCS Coating S...
Parylenes are used for a wide range of applications in microelectromechanical systems (MEMS) devices...
This study reports the penetration properties of various Parylenes (i.e., C, N and HT) inside long m...
Parylene C has been preferred in various microfluidic and packaging applications as a chemical barri...
Parylene C is a promising material for constructing flexible, biocompatible and corrosion-resistant ...
Following the recent trend of miniaturization of MEMS and the approach to improve the comfort of med...
This paper presents a novel channel fabrication technology of bulk-micromachined monolithic embedded...
This paper describes parylene as an emerging bioMEMS material. Parylene has the unique feature of ro...
This paper proposed a simple and effective fabrication method of Parylene C-caulked PDMS (pcPDMS) fo...
It is desirable that in analytical microfluidic systems such as chip-based liquid chromatography tha...
This paper proposed a simple and effective fabrication method of Parylene C-caulked PDMS (pcPDMS) fo...
Parylene is the generic name for members, e.g. parylene N,C,D of a thermoplastic polymer series deve...
In order to develop an advanced polymer based package technology to obtain small and flexible medica...
This paper reports the mechanical behavior and barrier property of the hybrid parylene/PDMS material...
This paper presents new fabrication technologies and materials for microfluidic systems with reduced...
Parylene-C has been deposited on bare Si wafers by physical vapor deposition using the SCS Coating S...
Parylenes are used for a wide range of applications in microelectromechanical systems (MEMS) devices...
This study reports the penetration properties of various Parylenes (i.e., C, N and HT) inside long m...
Parylene C has been preferred in various microfluidic and packaging applications as a chemical barri...
Parylene C is a promising material for constructing flexible, biocompatible and corrosion-resistant ...
Following the recent trend of miniaturization of MEMS and the approach to improve the comfort of med...
This paper presents a novel channel fabrication technology of bulk-micromachined monolithic embedded...
This paper describes parylene as an emerging bioMEMS material. Parylene has the unique feature of ro...
This paper proposed a simple and effective fabrication method of Parylene C-caulked PDMS (pcPDMS) fo...
It is desirable that in analytical microfluidic systems such as chip-based liquid chromatography tha...
This paper proposed a simple and effective fabrication method of Parylene C-caulked PDMS (pcPDMS) fo...
Parylene is the generic name for members, e.g. parylene N,C,D of a thermoplastic polymer series deve...
In order to develop an advanced polymer based package technology to obtain small and flexible medica...
This paper reports the mechanical behavior and barrier property of the hybrid parylene/PDMS material...
This paper presents new fabrication technologies and materials for microfluidic systems with reduced...
Parylene-C has been deposited on bare Si wafers by physical vapor deposition using the SCS Coating S...
Parylenes are used for a wide range of applications in microelectromechanical systems (MEMS) devices...