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COMPLEXORDER SIGNED

The Complexity Revolution: Exploiting Unconventional Order in Next-Generation Materials Design

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EC-Contrib. €

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Project "COMPLEXORDER" data sheet

The following table provides information about the project.

Coordinator
THE CHANCELLOR, MASTERS AND SCHOLARS OF THE UNIVERSITY OF OXFORD 

Organization address
address: WELLINGTON SQUARE UNIVERSITY OFFICES
city: OXFORD
postcode: OX1 2JD
website: www.ox.ac.uk

contact info
title: n.a.
name: n.a.
surname: n.a.
function: n.a.
email: n.a.
telephone: n.a.
fax: n.a.

 Coordinator Country United Kingdom [UK]
 Total cost 3˙362˙635 €
 EC max contribution 3˙362˙635 € (100%)
 Programme 1. H2020-EU.1.1. (EXCELLENT SCIENCE - European Research Council (ERC))
 Code Call ERC-2017-ADG
 Funding Scheme ERC-ADG
 Starting year 2018
 Duration (year-month-day) from 2018-10-01   to  2023-09-30

 Partnership

Take a look of project's partnership.

# participants  country  role  EC contrib. [€] 
1    THE CHANCELLOR, MASTERS AND SCHOLARS OF THE UNIVERSITY OF OXFORD UK (OXFORD) coordinator 3˙362˙635.00

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 Project objective

The fundamental objective of the research described in this proposal is to lay the foundations for understanding how structural complexity can give rise to materials properties inaccessible to structurally-simple states. The long-term vision is a paradigm shift in the way we as chemists design materials—the “Complexity Revolution”—where we move to thinking beyond the unit cell and harness unconventional order to generate emergent states with entirely novel behaviour. The key methodologies of the project are (i) exploitation of the rich structural information accessible using 3D-PDF / diffuse scattering techniques, (ii) exploration of the phase behaviour of unconventional ordered states using computational methods, and (iii) experimental/computational studies of a broad range of materials in which complexity arises from a large variety of different phenemona. In this way, the project will establish how we might controllably introduce complexity into materials by varying chemical composition and synthesis, how we might then characterise these complex states, and how we might exploit this complexity when designing next-generation materials with unprecedented electronic, catalytic, photonic, information storage, dielectric, topological, and magnetic properties.

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The information about "COMPLEXORDER" are provided by the European Opendata Portal: CORDIS opendata.

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