Development of SrPbO3 for the growth of nanostructures: a feasibility study

Lead Research Organisation: Queen Mary University of London

Department Name: Materials

Abstract

Abstracts are not currently available in GtR for all funded research. This is normally because the abstract was not required at the time of proposal submission, but may be because it included sensitive information such as personal details.

Funded Value:

£22,193

Funded Period:

Oct 08 - Oct 09

Funder:

EPSRC

Project Status:

Closed

Project Category:

Research Grant

Project Reference:

EP/F06702X/1

Principal Investigator:

Michael Reece

Research Subject:

Materials processing (50%)

Materials sciences (50%)

Research Topic:

Materials Characterisation (50%)

Materials processing (50%)

Organisations

Queen Mary University of London (Lead Research Organisation)

People	ORCID iD
Michael Reece (Principal Investigator)

Publications

Author Name

Title Publication Date Published

10 25 50

Eriksson M (2011) Low temperature consolidated lead-free ferroelectric niobate ceramics with improved electrical properties in Journal of Materials Research

Key Findings
Impact Summary


Description	The research has supported the development of electric field/current assisted sintering in ceramics. This has supported research into size effects in ferroelectric ceramics, including lead free compositions.
Exploitation Route	Development of rapid sintering expertise and knowledge to densify nanostructured materials.
Sectors	Electronics,Energy


Description	The knowledge generated in this project have been applied to the processing of nanostructured thermoelectrics. THis has lead to a partnership with a UK company, European Thermodynamics to commercialise new thermoelectric materials.
First Year Of Impact	2010
Sector	Energy

Abstract

Organisations

People

ORCID iD

Publications