Add to ORKGWe present a rapid (1 day), modular, high-yield (~90%) fabrication process for Parylene C bellows and their mechanical characterization. Load-deflection testing was performed on bellows of varying convolution numbers (1.0, 2.0, and 3.0) and compared to both finite element modeling (FEM) simulations and an analytical model based on membrane deflection theory. Bellows produced a consistent load response. Actuators (consisting of electrodes, electrolyte, and bellows) were assembled and then integrated into a polydimethylsiloxane (PDMS, or silicone rubber) drug reservoir. Preliminary results indicate accurate (< 5% error) drug delivery during repeated dosing at constant flow rate (3.75 μL/min, 2.0 convolution bellows, 1 mA constant current)
This paper proposed a simple and effective fabrication method of Parylene C-caulked PDMS (pcPDMS) fo...
2018-05-09Implantable medical devices make possible the treatment of chronic conditions by providing...
This paper reports the mechanical behavior and barrier property of the hybrid parylene/PDMS material...
Abstract—We present the first electrochemical actuator with Parylene bellows for large-deflection op...
Herein, we reported several advanced parylene fabrication techniques for various micro/nano devices ...
Herein, we reported several advanced parylene fabrication techniques for various micro/nano devices ...
This paper reports on a new structure and fabrication technology for Parylene-based recording and st...
For the first time, the yield strength of thin-film parylene-C is measured from membrane load-deflec...
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...
2019-04-26Parylene provides many advantages as a material for thin-film implantable devices, however...
[[abstract]]A new method is presented for the fabrication of suspended parylene structures, using dr...
This paper describes parylene as an emerging bioMEMS material. Parylene has the unique feature of ro...
Active implantable medical devices have been developed for diagnosis, monitoring and treatment of la...
Parylene C is well-known as an encapsulation material for medical implants. Within the approach of m...
This paper proposed a simple and effective fabrication method of Parylene C-caulked PDMS (pcPDMS) fo...
2018-05-09Implantable medical devices make possible the treatment of chronic conditions by providing...
This paper reports the mechanical behavior and barrier property of the hybrid parylene/PDMS material...
Abstract—We present the first electrochemical actuator with Parylene bellows for large-deflection op...
Herein, we reported several advanced parylene fabrication techniques for various micro/nano devices ...
Herein, we reported several advanced parylene fabrication techniques for various micro/nano devices ...
This paper reports on a new structure and fabrication technology for Parylene-based recording and st...
For the first time, the yield strength of thin-film parylene-C is measured from membrane load-deflec...
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...
2019-04-26Parylene provides many advantages as a material for thin-film implantable devices, however...
[[abstract]]A new method is presented for the fabrication of suspended parylene structures, using dr...
This paper describes parylene as an emerging bioMEMS material. Parylene has the unique feature of ro...
Active implantable medical devices have been developed for diagnosis, monitoring and treatment of la...
Parylene C is well-known as an encapsulation material for medical implants. Within the approach of m...
This paper proposed a simple and effective fabrication method of Parylene C-caulked PDMS (pcPDMS) fo...
2018-05-09Implantable medical devices make possible the treatment of chronic conditions by providing...
This paper reports the mechanical behavior and barrier property of the hybrid parylene/PDMS material...