• « A unique open access to a pan-European distributed facility with the ERIC legal status »more
  • « Strategic access and improved standards in sample definition at Large Scale Facilities »more
  • « Common metrology and a widespread platform for atomic precision manufacturing »more
  • « Data Repository for making nanoscience outcome promptly available to society »more
« An open access distributed facility with the legal status of a European Research Infrastructure Consortium (ERIC), made up of 3 to 6 centers characterized by specific scientific embedding and local synergies with nearby Large Scale Facilities (LSFs) but providing a unique access portal so as to be an integrated laboratory environment for the development of advanced nanoscience with atomic precision fabrication and metrology. »close
« Maximum exploitation of Large Scale Facilities (LSFs) by nano-oriented scientific communities by (a) providing a strategic access for Fine Analysis to a wider community of users and (b) raising the standards in sample preparation, definition and characterization for the most advanced fine analysis tools including nanobeams and ultra short pulses of X-ray and UV as well as neutron pulses. »close
« A common metrology and a widespread technological platform for advanced nanofabrication, synthesis and characterization of nanostructures, available to all scientific and technological communities so as to (a) provide a push forward in the challenge of atomic precision manufacturing and (b) shift the scientific competition towards ideas and intellectual skills rather than among different technological and financial capabilities of research groups around Europe. »close
« The first Nanoscience Repository of molecular data for functional and complex materials and protocols for synthesis and metrology of nanostructured systems so as to make the results of nanoscience centers more directly suitable for specific applications developed by technology districts as well as for next generation products manufactured by industries and SMEs. Full exploitation of emerging e-infrastructures to achieve high impact and capillarity in making nanoscience outcome promptly available to society. »close

Research and Innovation Actions

An open access distributed facility with the legal status of a European Research Infrastructure Consortium (ERIC), made up of 3 to 6 centers characterized by specific scientific embedding and local synergies with nearby Large Scale Facilities (LSFs) but providing a unique access portal so as to be an integrated laboratory environment for the development of advanced nanoscience with atomic precision fabrication and metrology.

Highlights

 
 
This is the shell of the future main on-line tool for 
running the project. A full overview of the main characteristics 
of the project is provided with a special emphasis 
on the access offer provided by the NFFA transnational access activities.

Within the web page, a dedicated field has been included to allow 
the entering of email addresses of colleagues potential interested 
in the NFFA project. Through such a procedure, colleagues will be 
constantly informed on the evolution of the NFFA project, 
useful information and jobs offers sponsored within the NFFA consortium.

Proposal submission is NOW OPEN through the Single Entry Point integrated in the www.NFFA.eu website, 
where you can also find guidelines for access, and the procedures for submission of proposals (www.nffa.eu/apply).

Go to NFFA-Europe Home page 




The Nano Foundry and Fine Analysis Trieste facility is open for access



NFFA-Trieste gives unique access to in-situ Pulsed Laser Deposition   
synthesis of advanced materials and surfaces in continuous UHV   
environment with the all new Spin-Resolved Angular Resolved   
Photoemission as well as X-ray near edge absorption and X-ray absorption
   Magnetic Dichroism exploiting the APE beamline variable polarization 
  undulator sources.   An all-new MBE-growth cluster is also open to   
access featuring metal-oxide MBE growth, masked growth, in-situ Kerr   
effect up to 0.6 Tesla and advanced XPS and surface analysis.  Surface  
 characterization includes atomic resolution STM/STS and vectorial-MOKE 
  at low H-fields.
A full description of the available facilities and access application forms 
are described in the all new www.Trieste.NFFA.eu portal.

Go to NFFA-Trieste Home page

 
 

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