Multifunctional ultrathin Fe(x)O(y), Fe(x)S(y) and Fe(x)N(y) films with unique electronic, catalytic and magnetic properties (Q84229): Difference between revisions

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+Film ultrasottili multifunzionali Fe(x)O(y), Fe(x)S(y) e Fe(x)N(y) con proprietà elettroniche, catalitiche e magnetiche uniche
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+Il progetto riguarda nanomateriali catalitici-magnetici multifunzionali: ossido di ferro ultrasottile Fe(x)O(y), solfuro di ferro Fe(x)S(y) e di ferro Nitride Fe(x)N(y) pellicole. I film ultrasottili costituiscono una nuova classe di materiali bidimensionali che, a causa di effetti dimensionali finiti, presentano proprietà fisiche e chimiche uniche non osservate per i corrispondenti materiali sfusi. L'interazione aggiuntiva del film con il supporto su cui è coltivata può rendere la formazione di sovrastrutture e la comparsa di effetti di trasferimento di carica. Per i film di ossido di ferro ultrasottili di FeO coltivati su Pt(111) tutti questi hanno portato ad una maggiore attività catalitica nella reazione di ossidazione del CO e in interessanti proprietà magnetiche. Recentemente, l'attenzione scientifica è stata richiamata anche sulle forme 2D di solfuri e nitruri. Il progetto si propone di preparare film di ossido di ferro ultrasottile, solfuro di ferro e nitruro di ferro su vari supporti, la loro caratterizzazione strutturale, nonché la determinazione delle loro proprietà fisiche e chimiche. (Italian)
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Revision as of 23:16, 15 January 2022

Project Q84229 in Poland

Language	Label	Description	Also known as
English	Multifunctional ultrathin Fe(x)O(y), Fe(x)S(y) and Fe(x)N(y) films with unique electronic, catalytic and magnetic properties	Project Q84229 in Poland

Statements

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2,198,140.0 zloty

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527,553.6 Euro

exchange rate to Euro

0.24 Euro

point in time

13 January 2020

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budget

2,198,140.0 zloty

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527,553.6 Euro

exchange rate to Euro

0.24 Euro

point in time

13 January 2020

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co-financing rate

100.0 percent

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start time

1 July 2017

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end time

31 December 2020

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beneficiary name (string)

UNIWERSYTET IM. ADAMA MICKIEWICZA W POZNANIU

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beneficiary

Q2513981 (Deleted Item)

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intervention field

Research and innovation activities in public research centres and centres of competence including networking

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programme

Smart growth - PL - ERDF

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fund

European Regional Development Fund

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summary

The project concerns multifunctional catalytic-magnetic nanomaterials: ultrathin iron oxide Fe(x)O(y), iron sulfide Fe(x)S(y) and iron nitride Fe(x)N(y) films. Ultrathin films constitute a new class of 2-dimensional materials which, due to finite size effects, exhibit unique physical and chemical properties not observed for the corresponding bulk materials. The additional interaction of the film with the support on which it is grown may render the formation of superstructures and the appearance of charge transfer effects. For ultrathin iron oxide FeO films grown on Pt(111) all these resulted in superior catalytic activity in CO oxidation reaction and in interesting magnetic properties. Recently, the scientific attention was drawn also to 2D forms of sulfides and nitrides. The project aims in preparation of ultrathin iron oxide, iron sulfide and iron nitride films on various supports, their structural characterization, as well as determination of their physical and chemical properties. (Polish)

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The project concerns multifunctional catalytic-magnetic nanomaterials: ultrathin iron oxide Fe(x)O(y), iron sulfide Fe(x)S(y) and iron Nitride Fe(x)N(y) films. Ultrathin films constitute a new class of 2-dimensional materials which, due to finite size effects, exhibit unique physical and chemical properties not observed for the corresponding bulk materials. The additional interaction of the film with the support on which it is grown may render the formation of superstructures and the appearance of charge transfer effects. For ultrathin iron oxide FeO films grown on Pt(111) all these resulted in superior catalytic activity in CO oxidation reaction and in interesting magnetic properties. Recently, the scientific attention was drawn also to 2D forms of sulfides and nitrides. The project aims in preparation of ultrathin iron oxide, iron sulfide and iron Nitride films on various supports, their structural characterisation, as well as determination of their physical and chemical properties. (English)

point in time

14 October 2020

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Le projet concerne les nanomatériaux catalytiques-magnétiques multifonctionnels: films d’oxyde de fer ultramince Fe(x)O(y), de sulfure de fer Fe(x)S(y) et de nitrure de fer Fe(x)N(y). Les films ultraminces constituent une nouvelle classe de matériaux bidimensionnels qui, en raison des effets de taille finie, présentent des propriétés physiques et chimiques uniques non observées pour les matériaux en vrac correspondants. L’interaction supplémentaire du film avec le support sur lequel il est cultivé peut entraîner la formation de superstructures et l’apparition d’effets de transfert de charge. Pour les films d’oxyde de fer ultramince FeO cultivés sur Pt(111), tous ces films ont donné lieu à une activité catalytique supérieure dans la réaction d’oxydation du CO et à des propriétés magnétiques intéressantes. Récemment, l’attention scientifique a également été attirée sur les formes 2D de sulfures et de nitrides. Le projet vise à préparer des films d’oxyde de fer ultramince, de sulfure de fer et de nitrure de fer sur divers supports, leur caractérisation structurelle, ainsi que la détermination de leurs propriétés physiques et chimiques. (French)

point in time

30 November 2021

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Das Projekt betrifft multifunktionale katalytisch-magnetische Nanomaterialien: ultradünne Eisenoxid Fe(x)O(y), Eisensulfid Fe(x)S(y) und Eisen Nitride Fe(x)N(y) Filme. Ultradünne Folien bilden eine neue Klasse von zweidimensionalen Materialien, die aufgrund endlicher Größeneffekte einzigartige physikalische und chemische Eigenschaften aufweisen, die für die entsprechenden Schüttgüter nicht beobachtet werden. Die zusätzliche Interaktion des Films mit der Unterstützung, auf der er angebaut wird, kann die Bildung von Überbauten und das Auftreten von Ladungsübertragungseffekten zur Folge haben. Bei ultradünnen Eisenoxid-Feofolien, die auf Pt(111) angebaut wurden, führten all dies zu einer überlegenen katalytischen Aktivität in der CO-Oxidationsreaktion und zu interessanten magnetischen Eigenschaften. Vor kurzem wurde die wissenschaftliche Aufmerksamkeit auch auf 2D-Formen von Sulfiden und Nitriden gelenkt. Das Projekt zielt auf die Vorbereitung von ultradünnen Eisenoxid-, Eisensulfid- und Eisennitridfolien auf verschiedenen Trägern, ihrer strukturellen Charakterisierung sowie der Bestimmung ihrer physikalischen und chemischen Eigenschaften ab. (German)

point in time

7 December 2021

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Het project heeft betrekking op multifunctionele katalytisch-magnetische nanomaterialen: ultradun ijzeroxide Fe(x)O(y), ijzersulfide Fe(x)S(y) en ijzernitride Fe(x)N(y)films. Ultradunne films vormen een nieuwe klasse van tweedimensionale materialen die, als gevolg van eindige grootte-effecten, unieke fysische en chemische eigenschappen vertonen die niet voor de overeenkomstige bulkmaterialen worden waargenomen. De extra interactie van de film met de steun waarop deze wordt gekweekt, kan de vorming van bovenbouwen en het uiterlijk van ladingsoverdrachtseffecten veroorzaken. Voor ultradunne ijzeroxide FeO-films op Pt(111) resulteerde dit allemaal in superieure katalytische activiteit in CO-oxidatiereacties en in interessante magnetische eigenschappen. Onlangs werd ook de wetenschappelijke aandacht gevestigd op 2D-vormen van sulfiden en nitriden. Het project is gericht op de voorbereiding van ultradunne ijzeroxide, ijzersulfide en ijzernitridefilms op verschillende dragers, hun structurele karakterisering en de bepaling van hun fysische en chemische eigenschappen. (Dutch)

point in time

16 December 2021

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Il progetto riguarda nanomateriali catalitici-magnetici multifunzionali: ossido di ferro ultrasottile Fe(x)O(y), solfuro di ferro Fe(x)S(y) e di ferro Nitride Fe(x)N(y) pellicole. I film ultrasottili costituiscono una nuova classe di materiali bidimensionali che, a causa di effetti dimensionali finiti, presentano proprietà fisiche e chimiche uniche non osservate per i corrispondenti materiali sfusi. L'interazione aggiuntiva del film con il supporto su cui è coltivata può rendere la formazione di sovrastrutture e la comparsa di effetti di trasferimento di carica. Per i film di ossido di ferro ultrasottili di FeO coltivati su Pt(111) tutti questi hanno portato ad una maggiore attività catalitica nella reazione di ossidazione del CO e in interessanti proprietà magnetiche. Recentemente, l'attenzione scientifica è stata richiamata anche sulle forme 2D di solfuri e nitruri. Il progetto si propone di preparare film di ossido di ferro ultrasottile, solfuro di ferro e nitruro di ferro su vari supporti, la loro caratterizzazione strutturale, nonché la determinazione delle loro proprietà fisiche e chimiche. (Italian)

point in time

16 January 2022

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Identifiers

Polish Kohesio ID

POIR.04.04.00-00-28CE/16

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Multifunctional ultrathin Fe(x)O(y), Fe(x)S(y) and Fe(x)N(y) films with unique electronic, catalytic and magnetic properties (Q84229): Difference between revisions

Revision as of 23:16, 15 January 2022

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