We present two methods for establishing rapid epoxy-less electrical connectivity to Parylene-based flat flexible cables (FFC). The first utilizes commercially available zero-insertion-force (ZIF) connector technology and the second utilizes a custom-fabricated connector with an acrylic/polydimethylsiloxane (PDMS) interface featuring screen-printed contacts. A contact pitch of 0.5 mm was achieved using both connector methods. These techniques are simple to implement, reversible, scalable and unlike epoxy-based approaches, do not require manual intervention to secure individual contacts
With the recent development of low-dimensional nanomaterials such as nanowires, carbon nanotubes (CN...
There is an increasing interest in the use of conducting polymers for a wide variety of applications...
Active implantable medical devices have been developed for diagnosis, monitoring and treatment of la...
The Flex wiring technology is used for the substitution of conventional wire harnesses. The big adva...
A typical luxury car has in excess of 400 electrical connectors with over 3000 individual terminals....
Novel contact connector materials such as extrinsic conducting polymers improve contact performance ...
Flexible, transparent, conductive electrodes are key elements of emerging flexible electronic and en...
This paper reports a wafer-level attachment method using parylene as an interlayer material for inte...
F2R is a generic IC fabrication based platform that allows for the fabrication of miniature and flex...
Investigations on contact connector materials for different applications such as in the automotive i...
The article describes the features of development, possibilities of manufacture and application of e...
Flexible transparent conductive electrodes are key elements of emerging flexible electronic and ener...
With the escalating demands for downsizing and functionalizing mobile electronics, flexible electron...
For over two decades different types of fabric circuits have been developed. These are fabrics with ...
This paper presents a wafer level attachment method for handling various shaped structures for MEMS ...
With the recent development of low-dimensional nanomaterials such as nanowires, carbon nanotubes (CN...
There is an increasing interest in the use of conducting polymers for a wide variety of applications...
Active implantable medical devices have been developed for diagnosis, monitoring and treatment of la...
The Flex wiring technology is used for the substitution of conventional wire harnesses. The big adva...
A typical luxury car has in excess of 400 electrical connectors with over 3000 individual terminals....
Novel contact connector materials such as extrinsic conducting polymers improve contact performance ...
Flexible, transparent, conductive electrodes are key elements of emerging flexible electronic and en...
This paper reports a wafer-level attachment method using parylene as an interlayer material for inte...
F2R is a generic IC fabrication based platform that allows for the fabrication of miniature and flex...
Investigations on contact connector materials for different applications such as in the automotive i...
The article describes the features of development, possibilities of manufacture and application of e...
Flexible transparent conductive electrodes are key elements of emerging flexible electronic and ener...
With the escalating demands for downsizing and functionalizing mobile electronics, flexible electron...
For over two decades different types of fabric circuits have been developed. These are fabrics with ...
This paper presents a wafer level attachment method for handling various shaped structures for MEMS ...
With the recent development of low-dimensional nanomaterials such as nanowires, carbon nanotubes (CN...
There is an increasing interest in the use of conducting polymers for a wide variety of applications...
Active implantable medical devices have been developed for diagnosis, monitoring and treatment of la...