Explore the words cloud of the PETER project. It provides you a very rough idea of what is the project "PETER" about.
The following table provides information about the project.
VYSOKE UCENI TECHNICKE V BRNE
|Coordinator Country||Czech Republic [CZ]|
|Total cost||2˙898˙683 €|
|EC max contribution||2˙898˙683 € (100%)|
1. H2020-EU.1.2.1. (FET Open)
|Duration (year-month-day)||from 2018-01-01 to 2020-12-31|
Take a look of project's partnership.
|1||VYSOKE UCENI TECHNICKE V BRNE||CZ (BRNO STRED)||coordinator||687˙646.00|
|2||UNIVERSITAET STUTTGART||DE (STUTTGART)||participant||809˙980.00|
|3||THOMAS KEATING LIMITED||UK (BILLINGSHURST)||participant||787˙705.00|
|4||Asociacion - Centro de Investigacion Cooperativa en Nanociencias - CIC NANOGUNE||ES (San Sebastian)||participant||613˙352.00|
We propose to establish Plasmon-enhanced Terahertz Electron Paramagnetic Resonance spectroscopy and scanning microscopy as a unique Electron Paramagnetic Resonance (EPR) platform for high-sensitivity local analysis of paramagnetic organic and inorganic species and materials. Here, we will deliver novel hardware and infrastructure providing ground-breaking innovation in the magnetic sensing and imaging. The platform is conceptually based on incorporating THz plasmonic antennas onto surfaces (spectroscopy) and scanning probe tips (microscopy), resulting in a strong, local enhancement (about two orders of magnitude) of the magnetic sensing field. Extending to the THz region enables effective utilization of plasmonic structures resulting in a radical improvement of EPR sensitivity (about four orders of magnitude) and spatial resolution going beyond the diffraction limit, and thus introduce a scanning probe microscopic regime into this field. This will make it possible to map the sample over its area and so to localize its properties with unprecedented resolution (below 1 micrometre). Such a significant enhancement of the EPR performance will open new ways in magnetic sensing technologies enabling for instance to study in situ functional centres in a wide variety of materials, and, generally, set a new direction in the development of the EPR-employing industry. EPR finds its applications in many scientific areas covering chemistry, biology, medicine, materials science, physics, etc. Hence, introducing this new method would have a profound impact on scientific, technological and societal stakeholders in many research and industrial communities.
|Specifications of PE EPR microscope||Documents, reports||2019-06-06 16:24:45|
|PS design for plasmon enhanced EPR||Documents, reports||2019-06-06 16:24:42|
|Project web site, visual identity, Facebook, LinkedIn, and Twitter||Websites, patent fillings, videos etc.||2019-06-06 16:24:47|
|Data management plan||Documents, reports||2019-06-06 16:24:47|
|Initial Quality Management Plan||Documents, reports||2019-06-06 16:24:43|
Take a look to the deliverables list in detail: detailed list of PETER deliverables.
|year||authors and title||journal||last update|
Curdin Maissen, Shu Chen, Elizaveta Nikulina, Alexander Govyadinov, Rainer Hillenbrand
Probes for Ultrasensitive THz Nanoscopy
published pages: 1279-1288, ISSN: 2330-4022, DOI: 10.1021/acsphotonics.9b00324
|ACS Photonics 6/5||2020-01-28|
Stefan Mastel, Alexander A. Govyadinov, Curdin Maissen, Andrey Chuvilin, Andreas Berger, Rainer Hillenbrand
Understanding the Image Contrast of Material Boundaries in IR Nanoscopy Reaching 5 nm Spatial Resolution
published pages: 3372-3378, ISSN: 2330-4022, DOI: 10.1021/acsphotonics.8b00636
|ACS Photonics 5/8||2019-05-23|
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The information about "PETER" are provided by the European Opendata Portal: CORDIS opendata.