Electrophoretic deposition of structured, microwave composites: proof of concept
Lead Research Organisation:
University of Sheffield
Department Name: Materials Science and Engineering
Abstract
Electrophoretic deposition (EPD) is a simple cheap way of depositing powders onto a conducting surface. The deposition is uniform and complex geometries can be coated with relative ease. In this short study visit, Paula Vilarinho will help establish the EPD technique at the Department of Engineering Materials, University of Sheffield via technology transfer from her own laboratory. The main purpose is to fabricate thick ceramic films with low dielectric loss that are suitable for filters in microelectronics. Ultimately, it is anticipated that composites can be also be deposited, formed from two components with different permittivities. In this manner the filter frequency can be tailored by altering the volume ratio of the two components.
Organisations
People |
ORCID iD |
Ian Reaney (Principal Investigator) |
Publications
Zalinska B
(2014)
Fabrication of multilayer dielectrically loaded antennas using aqueous electrophorectic deposition of polyether ether ketone
in Journal of Materials Science
Vilarinho P
(2012)
Layered composite thick films for dielectric applications
in Journal of the European Ceramic Society
Description | Electrophoretic deposition techniques were introduced to Sheffield by Prof Vilarinho. These were later adapted for Sarantel Ltd to fabricate multilayer GPS antennas |
Exploitation Route | New antennas for GPS with better performance Two KTPs were obtained based on the work generated by the original grant. Sarantel are actively seeking to commercialise the new multilayer antennas. |
Sectors | Aerospace, Defence and Marine,Electronics |
Description | The techniques introduced to Sheffield by Prof. Vilarinho became the cornestine for the development of an aqueous EPD process which was used to fabricate multilayer antennas for a UK company Sarantel. This has resulted in two large KTP (TSB) grants. EPD is a process whereby particulates in a suspension are attracted to an electrode in an electric field. The work was first performed on ceramic particles but adapted for polymers and used to develop prototype antennas for GPS. Beneficiaries: UK based company Sarantel, EPD community Contribution Method: Prof Vilarinho introduced EPD to Sheffield and the group of IMR adapted the research for the fabrication of multilayer antennas. |
First Year Of Impact | 2010 |
Sector | Aerospace, Defence and Marine,Electronics |
Impact Types | Societal,Economic |