Explore the words cloud of the SPRING project. It provides you a very rough idea of what is the project "SPRING" about.
The following table provides information about the project.
Asociacion - Centro de Investigacion Cooperativa en Nanociencias - CIC NANOGUNE
|Coordinator Country||Spain [ES]|
|Total cost||3˙486˙536 €|
|EC max contribution||3˙486˙536 € (100%)|
1. H2020-EU.1.2.1. (FET Open)
|Duration (year-month-day)||from 2019-10-01 to 2023-09-30|
Take a look of project's partnership.
|1||Asociacion - Centro de Investigacion Cooperativa en Nanociencias - CIC NANOGUNE||ES (San Sebastian)||coordinator||667˙561.00|
|2||IBM RESEARCH GMBH||CH (RUESCHLIKON)||participant||721˙557.00|
|3||TECHNISCHE UNIVERSITEIT DELFT||NL (DELFT)||participant||583˙406.00|
|4||THE CHANCELLOR, MASTERS AND SCHOLARS OF THE UNIVERSITY OF OXFORD||UK (OXFORD)||participant||561˙062.00|
|5||UNIVERSIDAD DE SANTIAGO DE COMPOSTELA||ES (SANTIAGO DE COMPOSTELA)||participant||517˙500.00|
|6||FUNDACION DONOSTIA INTERNATIONAL PHYSICS CENTER||ES (DONOSTIA SAN SEBASTIAN)||participant||435˙448.00|
Future Information Technology will take advantage of quantum materials for efficient information processing and communication. In SPRING, we propose to utilize custom-crafted graphene nanostructures as elementary active components of a new generation of nanoscale quantum spintronic devices. Graphene structures can spontaneously develop intrinsic π-paramagnetism from topological frustrations of their structure. This unconventional magnetism is mobile, long-ranged and can be electrically addressable. The targeted long-term vision is the development of an all-graphene platform, where spins can be used for transporting, storing and processing information. This new technology paradigm will combine fast electron mobility with electrically addressable quantum spins, in a customizable semiconducting platform, envisioning clear impact on scientific, technological and societal stakeholders.
To advance towards this goal, the interdisciplinary project SPRING combines research in physics, chemistry and engineering to fabricate graphene nanostructures with atomic precision, demonstrate and manipulate their electron and nuclear spin states, and test their potential as basic element in quantum spintronic devices. On-surface synthesis strategies will be utilized to create atomically precise open-shell graphene nanostructures with radical character, including frustrated magnetic states, spin-polarized bands, spin chains, and nuclear spins embedded at specific sites. We will demonstrate the emergence of π-magnetization and unveil the time and energy scales of spins in the open-shell structures through a combination of scanning probe and electron spin resonance spectroscopies, and develop novel predictive models of their quantum functionality. The potential of graphene open-shell platforms as a novel paradigm in spin-based logic devices will be tested by incorporating them into model devices and electrically addressing and manipulating spins.
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The information about "SPRING" are provided by the European Opendata Portal: CORDIS opendata.