Photoelectron spectrometer for operation under environmental pressure and temperature conditions. (Q77645): Difference between revisions

From EU Knowledge Graph
Jump to navigation Jump to search
(‎Changed an Item: Fixing rounding issue)
(‎Removed claim: summary (P836): Physico-chemical and material engineering at nanometric scale is one of the most important and highly thriving developing areas.The diversity of advanced research techniques, and is also the use of X-ray photoelectrons.X-Ray photopectron speccoscopy — XPS) allows the discovery of new materials or observations.In recent years, there has been an intensification of efforts to develop techniques to test chemical processes in real time.In particula...)
Property / summary
Physico-chemical and material engineering at nanometric scale is one of the most important and highly thriving developing areas.The diversity of advanced research techniques, and is also the use of X-ray photoelectrons.X-Ray photopectron speccoscopy — XPS) allows the discovery of new materials or observations.In recent years, there has been an intensification of efforts to develop techniques to test chemical processes in real time.In particular, work is ongoing to develop an environmental measurement apparatus, where the spectrometer can monitor catalytic processes under controlled conditions.The project is designed to build an advanced and automated photoelectron spectrometer for working under environmental pressure and temperature conditions.The product’s innovation consists of the use of new construction solutions, and the use of a compact construction, the ability to automate the spectrometer and carry out environmental studies using it.The apparatus will be equipped with one, coherent software.It would also be useful to integrate the analyser’s work with other instruments such as the X-ray machine and the ability to conduct and monitor research from anywhere via an internet connection.The mass spectrometer created by the design will be coupled with other research techniques.During the project, a series of industrial research and experimental R & D will be carried out in order to place on the market an innovative research apparatus for innovative research in the field of nanotechnology.In accordance with Article 25 of Commission Regulation (EC) No 651/2014 of 17 June 2014 declaring certain categories of aid compatible with the internal market in the application of Article 107 and 108 of the Treaty (OJ(OJ LEU L 187/1, 26.06.2014) (English)
 
Property / summary: Physico-chemical and material engineering at nanometric scale is one of the most important and highly thriving developing areas.The diversity of advanced research techniques, and is also the use of X-ray photoelectrons.X-Ray photopectron speccoscopy — XPS) allows the discovery of new materials or observations.In recent years, there has been an intensification of efforts to develop techniques to test chemical processes in real time.In particular, work is ongoing to develop an environmental measurement apparatus, where the spectrometer can monitor catalytic processes under controlled conditions.The project is designed to build an advanced and automated photoelectron spectrometer for working under environmental pressure and temperature conditions.The product’s innovation consists of the use of new construction solutions, and the use of a compact construction, the ability to automate the spectrometer and carry out environmental studies using it.The apparatus will be equipped with one, coherent software.It would also be useful to integrate the analyser’s work with other instruments such as the X-ray machine and the ability to conduct and monitor research from anywhere via an internet connection.The mass spectrometer created by the design will be coupled with other research techniques.During the project, a series of industrial research and experimental R & D will be carried out in order to place on the market an innovative research apparatus for innovative research in the field of nanotechnology.In accordance with Article 25 of Commission Regulation (EC) No 651/2014 of 17 June 2014 declaring certain categories of aid compatible with the internal market in the application of Article 107 and 108 of the Treaty (OJ(OJ LEU L 187/1, 26.06.2014) (English) / rank
Normal rank
 

Revision as of 10:13, 14 October 2020

Project in Poland financed by DG Regio
Language Label Description Also known as
English
Photoelectron spectrometer for operation under environmental pressure and temperature conditions.
Project in Poland financed by DG Regio

    Statements

    country
    Poland
    0 references
    EU contribution
    4,748,591.74 zloty
    0 references
    1,139,662.02 Euro
    exchange rate to Euro
    0.24 Euro
    point in time
    13 January 2020
    0 references
    budget
    6,580,704.58 zloty
    0 references
    1,579,369.10 Euro
    exchange rate to Euro
    0.24 Euro
    point in time
    13 January 2020
    0 references
    co-financing rate
    72.16 percent
    0 references
    start time
    1 June 2016
    0 references
    end time
    28 February 2018
    0 references
    beneficiary name (string)
    PREVAC SPÓŁKA Z OGRANICZONĄ ODPOWIEDZIALNOŚCIĄ
    0 references
    beneficiary
    Q2509792
    0 references
    coordinate location

    50°34'7.3"N, 19°14'3.8"E
    0 references
    summary
    Jedną z najważniejszych i bardzo prężnie rozwijających się dziedzin jest fizyko-chemia i inżynieria materiałowa w skali nanometrycznej. Różnorodność zaawansowanych technik badawczych, a jest nią też spektroskopia fotoelektronów rentgenowskich (z ang. X-ray photoelectron spectroscopy – XPS), pozwala na odkrywanie nowych materiałów czy obserwacji zjawisk. W ostatnich latach można zaobserwować zintensyfikowane dążenia do opracowania technik, służących badaniu procesów chemicznych, zachodzących w czasie rzeczywistym. W szczególności trwają prace nad stworzeniem środowiskowej aparatury pomiarowej, gdzie spektrometr będzie mógł obserwować procesy katalityczne w kontrolowanym warunkach. Przedmiotem projektu jest zbudowanie zaawansowanego i zautomatyzowanego spektrometru fotoelektronów do pracy w środowiskowych warunkach ciśnienia i temperatury. Innowacyjność tego produktu polega na zastosowaniu nowych rozwiązaniach konstrukcyjnych, kompaktowej budowy, możliwości automatyzacji samego spektrometru oraz prowadzeniu badań środowiskowych z jego użyciem. Aparatura zostanie wyposażona w jedno, spójne oprogramowanie. Kolejnym atutem będzie możliwość integrowania pracy analizatora z innymi instrumentami takimi jak lampa rentgenowska oraz możliwość prowadzenia i monitorowania badań z dowolnego miejsca poprzez łącze internetowe. Stworzony w ramach projektu spektrometr, dzięki odpowiedniej budowie, będzie sprzężony z innymi technikami badawczymi. Podczas projektu zostanie przeprowadzony szereg badań przemysłowych i eksperymentalnych prac badawczo-rozwojowych mających na celu wprowadzenie na rynek innowacyjnej aparatury naukowo-badawczej umożliwiającej przeprowadzenie nowatorskich badań w dziedzinie nanotechnologii. Zgodnie z art. 25 rozporządzenia KE nr 651/2014 z dnia 17 czerwca 2014 r. uznające niektóre rodzaje pomocy za zgodne z rynkiem wewnętrznym w stosowaniu art. 107 i 108 Traktatu (Dz. Urz. UE L 187/1 z 26.06.2014) (Polish)
    0 references

    Identifiers

    Polish Kohesio ID
    POIR.01.01.01-00-0076/16
    0 references
     
    Retrieved from "https://linkedopendata.eu/w/index.php?title=Item:Q77645&oldid=6324755"