Laboratórium pre využitie nanomateriálov

Koordinátori

RNDr. Eva Majkova, DrSc., Fyzikálny ústav SAV

Ing. Maria Omastova, DrSc., Ústav polymérov, SAS

Cieľom Laboratória je vytvoriť predpoklady pre úspešný výskum a komercializáciu nanomateriálov a nanokompozitov.

Súčasná vízia

V rámci laboratória vznikli viaceré spoločné projekty (viď nižšie). Existencia laboratória významne urýchlila výskum v oblasti nízkorozmerných nanomateriálov, ktoré sú EK uvádzané ako materiály 21 storočia. Hlavný strategický cieľ Laboratória je výskum a príprava nových 2D nanomateriálov, komponentov a štruktúr na báze 2D nanomateriálov a, integrácia komponentov a štruktúr založených na 2D nanomateriáloch do systémov s novou funkcionalitou a oblasťami využitia napr. v oblasti skladovanie energie a obnoviteľná energia, van der Waalsove heteroštruktúry funkcionalizované nanplatformy pre biomedicínbske aplikácie.

Prístrojová infraštruktúra

Infraštruktúra laboratória je súčasťou klastra laboratórií pre nanovedu NANOLAB niekoľko unikátnych zariadení (aj v svetovom kontexte): je to — konfokálny Ramanov mikroskop a zariadenie na meranie malouhlového rtg rozptylu s vysokointenzivnym zdrojom rtg žiarenia na báze tekutej anódy. Celková prístrojové vybavenie laboratória (časť FUSAV) je uvedené na http://www.fu.sav.sk/index.php?id=73

Laboratŕium má expertízu v príprave a charakterizácii nanočasticových súborov, 2D nanovrstiev, nanofilmov, ultratenkých multivrstiev a so skúmaním procesov na rozhraniach a ich analýzou, predovšetkým pomocou difúzneho rozptylu rtg žiarenia a difrakčnými metódami. Labpratórium pravidelne využíva aj zariadenia synchrotronového žiarenia. Spektroskopia defektných stavov v polovodičoch elektrickými a elektrochemickými metódami je ďalšia expertíza tohto oddelenia

Zapojenie mladých výskumníkov a doktorandov

Mladí vedeckí pracovníci: M. Benkovičová, N. Mrkývková, A. Annušová

Doktorandi: M. Pelleta, P. Nádaždy, A. Kalosi, R. Subair, M. Bodík, A. Vojtko, M. Kaiser, M. Hodas, J. Hagara, A. Shaji

Publikácie a príspevky na konferenciách

Spolupraca s hospodarskymi partnermi

Integra TDS s.r.o. Piešťany

OMS s.r.o. Dojč

Medzinárodné projekty

• Stable Next-Generation Photovoltaics: Unraveling degradation mechanisms of Organic Solar Cells by complementary characterization techniques (StableNextSol) COST MP1307, 2014–2018, E. Majková (project leader Monica Lira-Cantu, FICCNN, Barcelona, Spain)
• Building-up Centre of Excellence for Advanced Materials Application (CEMEA) — 2nd stage, call H2020-WIDESPREAD-2014-1, project no. 664336, 2016–2023, E. Majková r(za FU SAV) (8 SAS Institutes, VTT Technical Research Centre of Finland, University Helsinki)
• Dye-sensitized Solar Cell Based on Perovskite Solid-State electrolyte (DOPE), call FP7 Strengthening STI Cooperation between Korea and the EU, Promoting Innovation and the Enhancement of Communication for Technology-related Policy Dialogue (KONNECT) FP7 2016–2018, E. Majková za FU SAV (project partners Chung-Ang University Seoul, Middle East Technical University Ankara, Polymer Institute SAS Bratislava)
• Understanding and Controlling Nano and Mesoscale Friction, COST MP1303, 2013–2017, P. Šiffalovič (project leader Prof. Nicola Manini, Università degli Studi di Milano, Italy)
• Multi-Functional Nano-Carbon Composite Materials Network (MultiComp), COST CA15107, 2016–2020, P. Šiffalovič (project leader Dr Sharali Malik, Karlsruhe Institute of Technology, Institute of Nanotechnology, Karlsruhe, Germany)
• Pb-free Perovskite Solar Cells with Long-term Stability (PPL), V4 — Korea Joint Research Programme on Chemistry and Chemical Engineering, 2017–2020, E. Majková (project partners Chung-Ang University Seoul, J. Heyrovsky Institute of Physical Chemistry Prague, Wigner Research Centre for Physics HAS Budapest, Military Institute of Engineer Technology Wroclaw, Polymer Institute SAS Bratislava)

Domáce projekty

• Vysoko kvalitné aktívne povrchy pre novú generáciu prvkov kryštálovej röntgenovej optiky (High-quality active surfaces for new generation of the X-ray optics elements), VEGA 2/0004/15, 2015–2017, M. Jergel
• Vzťah elektrónového transportu a štruktúry, rozmerov a usporiadania v nanočasticových súboroch pre pokročilé senzory plynov (Relationship between electron transport and structure, dimensions and order in nanoparticle arrays for advanced gas sensors), VEGA 2/0010/15, 2015–2017, P. Šiffalovič
• Nové stabilizované a štruktúrne usporiadané opticky a fotoelektricky aktívne organické materiály (New stabilized and structurally ordered optically and photoelectrically active organic materials), VEGA 1/0501/15, 2015–2018, V. Nádaždy (Project leader: G. Čík, Faculty of Chemical and Food Technology SUT)
• Výskum technológie nanoobrábania pre aktívne povrchy novej generácie rtg optiky (Research of the nanomachining technology for active surfaces of the new generation of the X-ray optics), APVV-14-0745, 2015–2019, E. Majková
• Grafénová nanoplatforma na detekciu rakoviny (Graphene-based nanoplatform for detection of cancer), APVV-14-0120, 2015–2019, P. Šiffalovič (Project leader: M. Omastová, Polymer Institute SAS)
• Nanočasticové senzory pre plynné biomarkery chorôb (Nanoparticles-based sensors of gaseous biomarkers of diseases), APVV-14-0891, 2015–2019, J. Ivančo
• Inovatívna MoS₂ platforma pre diagnózu a cielenú liečbu rakoviny (Smart MoS₂ platform for cancer diagnosis and targeted treatment), APVV-15-0641, 2016–2020, P. Šiffalovič
• 2D materiály iné ako grafén: monovrstvy, heteroštruktúry a hybridné vrstvy (2D materials beyond graphene: monolayers, heterostructures and hybrids), APVV-15-0693, 2016–2019, P.Šiffalovič (Project leader: M. Hulman, Institute of Electrical Engineering SAS)
• Vlastnosti rozhrania grafén-diamant: štúdium na atomárnej úrovni (Properties of the graphene-diamond interface: study on the atomic level), APVV-16-0319, 2017–2020, P.Šiffalovič (Project leader: V. Skákalová, Centre fo Nanodiagnostics SUT)
• Vzťahy medzi elektrónovou štruktúrou a mikroštruktúrou tenkých kopolymérnych vrstiev (Relations between electronic structure and microstructure of copolymer thin films), VEGA 2/0163/17, 2017–2020, K. Gmucová

Pozvane prednášky od r. 2015, ktoré vznikli s prispením projektu

Matej Jergel

• 16.–18.3.2017, BIT's 3^rd Annual World Congress and EXPO of Smart Materials-2017, Bangkok, Thajsko, „Polymer-fullerene Phase Separation During Solvent Annealing Studied In-situ by Laboratory-based X-ray Scattering“
• 24.–26.10.2017, BIT's 7^th Annual World Congress of Nano Science & Technology, Fukuoka, Japonsko, „Tracking of Nanostructure Formation by Time-Resolved Laboratory Small-Angle X-ray Scattering“
• 4.3.–6.3.2016, BIT's 2^nd Annual World Congress and EXPO of Smart Materials-2016, Singapur, „Real-Time Monitoring of Nanostructures and Processes at Nanoscale by Grazing-incidence Small-angle X-ray Scattering“
• 30.6.–3.7.2016, BIT's 6^th Annual New Energy Forum, Goyang City, Korea, „Real-time X-ray Studies of the Bulk Heterojunction Formation for Active Layers of Polymer Solar Cells“
• 26.–28.10.2016, BIT's 6^th Annual World Congress of Nano Science & Technology, Singapur, „Copper Growth on Graphene Studied In-situ by Time-resolved Small-angle X-ray Scattering
• 16.9.–23.9.2015, Nanomaterials: Applications and Properties '2015, Ľviv University, Ukrajina, „Grazing-incidence Small-angle X-ray Scattering Technique for Probing Nanostructures and Processes at Nanoscale“
• 11.12.–13.12.2015, First International Conference on Advanced Materilas for Power Engineering, Mahatma Gandhi University Kottayam, India, „Plasmon-enhanced ITO Electrodes for the Next Generation of Organic Solar Cells without the Hole Transporting Layer“

Eva Majkova

• 18.–21.9.2017, EMRS Fall Meeting Varšava, Poľsko, „Time-resolved GIWAXS studies of the organometallic perovskite layer structure annealed at various temperatures correlated with DOS mapping by ER EIS“
• 13.–17.11.2017, ICTF 17, International Conference on Thin Films 2017, New Delhi, India, „Kinetics of thin films growth studied by time-resolved small-angle X-ray scattering“
• 20.11.2017, 17 Energy Coversion Symposium, Chung Ang University, Seoul, Korea, „Nanofilms composed of 2D nanosheets“
• 21.–24.11.2017, 4^th International Conference on Advanced Electromaterials, ICAE 2017, Jeju, Korea, „Nanofilms composed of 2D nanosheets: formation, properties and applications“
• 25.11.2018, 4^th Korea-EU Bilateral Workshop on Advanced Materials processing, Jeju, Korea, „Time-resolved GIWAXS Studies of the CH₃NH₃PbI_3xCl_x Layer Structure Correlated with Photoluminescence and DOS Mapping“
• 8.–11.8.2016, Shanghai, Int. Conf. "Progress in Electromagnetics Research Symposium — PIERS 2016", Advanced Optical Characterization of Nanostructures and Nanomaterials in the X-ray Range
• 26.–28.10.2016, BIT's 6^th Annual World Congress of Nano Science & Technology, Singapur Palladium-Decorated Few-Layer Graphene Langmuir Nanofilm for Chemical Gas Sensing.
• 7.–9.1.2016, International conference on Advances in Applied lMathematics, Materials Science and Nanotechnology for Engineering and Industrial Appllcations (IC-AN4N4N 2K1, FISAT, Kerala, India IN-SITU GISAXS AND GIWAXS STUDIES OF THE BULK HETEROJUNCTION POLYMER SOLAR CELLS
• 24.–26.9.2015, 5^th Annual World Congress of NanoScience and Technology, Xiian, China „In-situ GISAXS diagnostics of nanofilm and ultrashort period multilayer growth“

Peter Siffalovic

• 11.–13.11.2016, 2^nd Int. Conf. on Advanced Materials for Power Engineering — ICAMPE 2016, Mahatma Gandhi University Kottayam, India, "X-ray Scattering — An Efficient Tool for Analysis of Advanced Materials, "2^nd Int. Conf. on Advanced Materials for Power Engineering — ICAMPE 2016"
• 25.1.2018, SAXS/WAXS/GISAXS User Workshop @ DESY, Hamburg, "Real-Time Monitoring of π-Stacking of Pentacene on Graphene"

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