Počet nalezených dokumentů: 567
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Tenké vrstvy pro fotovoltaiku nanášené plasmochemickými metodami
Fejfar, Antonín
2022 - český
Tenké vrstvy jsou klíčovou komponentou prakticky všech moderních fotovoltaických článků pro využití sluneční energie. Články využívají tenké vrstvy pro dosažení optimálního záchytu světla, pro rozdělení a sběr fotogenerovaných nábojů i pro pasivaci rozhraní či přímo jako vrstvy absorbující fotony slunečního svitu. Každoročně jsou tak nanášeny vrstvy o celkové ploše řádu mnoha stovek kilometrů čtverečních, a to především s využitím plazmochemických technologií. Thin films are key components for practically all of contemporary photovoltaic cells for solar energy utilization. Cells use thin films for optimizing light trapping, for selecting and collection of photogenerated charges and interface passivation or as absorber layers. Each year several hundreds of square kilometers of thin films are deposited mainly by plasma chemistry methods. Klíčová slova: thin films; deposition; plasma chemistry; photovoltaics Plné texty jsou dostupné na jednotlivých ústavech Akademie věd ČR.
Tenké vrstvy pro fotovoltaiku nanášené plasmochemickými metodami

Tenké vrstvy jsou klíčovou komponentou prakticky všech moderních fotovoltaických článků pro využití sluneční energie. Články využívají tenké vrstvy pro dosažení optimálního záchytu světla, pro ...

Fejfar, Antonín
Fyzikální ústav, 2022

Magnetocrystalline anisotropy of Ni-Mn-Ga-Co-Cu martensite
Rameš, Michal; Straka, Ladislav; Sozinov, A.; Heczko, Oleg
2022 - anglický
The martensites of Heusler alloys based on Ni-Mn-Ga exhibit magnetically-induced reorientation resulting in giant field-induced strain. Up to 12% strain was observed in Ni-Mn-Ga-Co-Cu with 4 at.% of Co and Cu. The driving force of the phenomenon is the magnetocrystalline anisotropy. We studied evolution of the anisotropy with temperature and compositions using magnetiyation curve measurements in four different single crystalline Ni-Mn-Ga-Co-Cu and compared with non-doped Ni-Mn-Ga. The anisotropy of martensite decreases with increasing average doping (Co+Cu)/2 but it does not scale with tetragonal ratio or valence electron concentration. Klíčová slova: martensite; magnetocrystalline anisotropy; Heusler alloys; Ni-Mn-Ga Plné texty jsou dostupné na jednotlivých ústavech Akademie věd ČR.
Magnetocrystalline anisotropy of Ni-Mn-Ga-Co-Cu martensite

The martensites of Heusler alloys based on Ni-Mn-Ga exhibit magnetically-induced reorientation resulting in giant field-induced strain. Up to 12% strain was observed in Ni-Mn-Ga-Co-Cu with 4 at.% of ...

Rameš, Michal; Straka, Ladislav; Sozinov, A.; Heczko, Oleg
Fyzikální ústav, 2022

Chemická depozice diamantových tenkých vrstev z par plynů
Kromka, Alexander
2022 - český
Příprava diamantových vrstev a jejich (nano-) struktur vyžaduje zvládnutí více technologických kroků. V prvním kroku „diamantové technologie” je důležité aktivovat povrch nediamantové podložky vhodným procesem známým jako nukleace nebo zárodkování. Nejčastěji se jedná o proces pokrytí povrchu podložky (nano-) částicemi diamantu nebo aktivace povrchu podložky iontovým bombardováním. Druhým klíčovým krokem je samotný růst diamantové vrstvy tzv. chemickou depozicí z par plynů (tzv. „Chemical Vapor Deposition” - CVD) za nízkých tlaků (10 ÷ 10 000 Pa) a teplot v rozsahu 250 ÷ 1000 °C, která je nejčastěji realizována v plynné směsi metanu a vodíku v systému žhaveného vlákna nebo mikrovlnného plazmatu. V tomto příspěvku jsou oba technologické kroky, nukleace a růst, diskutovány se zřetelem aktuálních trendů a experimentálních aktivit probíhajících v laboratořích Fyzikálního ústavu AV ČR (FZÚ).\n The preparation of diamond layers and their (nano-) structures requires the optimization of several technological steps. In the first step of “diamond technology” it is important to activate the surface of the non-diamond substrate by a suitable process known as nucleation or nucleation. The second key step is the growth of the diamond layer itself by chemical vapor deposition (CVD) under low pressures (10 ÷ 10,000 Pa) and temperatures in the range of 250 ÷ 1000 °C, and from a gas mixture of methane and hydrogen commonly used in a hot filament or microwave plasma CVD systems. In this paper, both technological steps, nucleation and growth, are discussed in light of current trends and experimental activities taking place in the laboratories of the Institute of Physics of the Academy of Sciences of the Czech Republic (FZÚ). Klíčová slova: diamond technology; nucleation; chemical vapor deposition Plné texty jsou dostupné na jednotlivých ústavech Akademie věd ČR.
Chemická depozice diamantových tenkých vrstev z par plynů

Příprava diamantových vrstev a jejich (nano-) struktur vyžaduje zvládnutí více technologických kroků. V prvním kroku „diamantové technologie” je důležité aktivovat povrch nediamantové podložky vhodným ...

Kromka, Alexander
Fyzikální ústav, 2022

Effect of molecular structure on liquid crystalline behaviour for chiral lactic acid derivatives
Mironov, Sergei; Bubnov, Alexej
2022 - anglický
Liquid crystals are self-organizing materials that have great potential for practical applications. The relationship has not been fully established and understood despite numerous studies. We discuss a relatively broad subclass of calamitic chiral lactic acid derivatives and provide specific examples of effective tuning of their mesomorphic and electro-optical behaviour using various types of lateral substitution placed on the molecular core. Klíčová slova: chiral liquid crystals; lateral substitution; ferroelectric smectic phase; spontaneous polarization; lactic acid Plné texty jsou dostupné na jednotlivých ústavech Akademie věd ČR.
Effect of molecular structure on liquid crystalline behaviour for chiral lactic acid derivatives

Liquid crystals are self-organizing materials that have great potential for practical applications. The relationship ...

Mironov, Sergei; Bubnov, Alexej
Fyzikální ústav, 2022

Plasma-synthesised zinc oxide nanoparticle behavior in liquids
Rutherford, D.; Jíra, J.; Kolářová, Kateřina; Matolínová, I.; Remeš, Zdeněk; Kuliček, J.; Padmanaban, D.; Maguire, P.; Mariotti, D.; Rezek, B.
2021 - anglický
ZnO nanoparticles have been synthesized using non-thermal atmospheric pressure plasma (ZnO-NTP). We investigated the behavior of these ligand-free as a colloid suspension using different solvents, from deionized water to physiological saline and microbial culture broth. We found that the zeta potential of ZnONTP became more negative after exposure to microbial culture broth relative to water, which suggests increased colloid stability. Photoluminescence spectra of ZnO-NTP were similar regardless of liquid type, yet optical and fluorescent images of samples showed different agglomeration behaviour depending on liquid type. Scanning electron microscopy images revealed large agglomerates of ZnO-NTP interacting with the surface of bacteria cells, ranging in size from 200 nm up to 2 µm. We also studied effect of sub-lethal concentrations of ZnO-NTP on bacteria under illumination. There was no significant difference in viable bacteria concentration after 24h exposure to 10 µg/mL ZnO-NTP. Klíčová slova: zinc oxide; nanotechnology; colloid suspension; bacteria Plné texty jsou dostupné na jednotlivých ústavech Akademie věd ČR.
Plasma-synthesised zinc oxide nanoparticle behavior in liquids

ZnO nanoparticles have been synthesized using non-thermal atmospheric pressure plasma (ZnO-NTP). We investigated the behavior of these ligand-free as a colloid suspension using different solvents, ...

Rutherford, D.; Jíra, J.; Kolářová, Kateřina; Matolínová, I.; Remeš, Zdeněk; Kuliček, J.; Padmanaban, D.; Maguire, P.; Mariotti, D.; Rezek, B.
Fyzikální ústav, 2021

Radical-based tuning the surface functionality of MXene
Olshtrem, A.; Chertopalov, Sergii; Guselnikova, O.; Švorčík, V.; Lyutakov, O.
2021 - anglický
The family of MAX phases and their derivative MXenes are continuously growing in terms of both crystalline and composition varieties. MXenes are a new family of two-dimensional (2D) transition metal carbides, carbonitrides and nitrides, with a general formula Mn+1AXn, where n = 1–3, M denotes a transition metal, A is an element such as aluminum or silicon, and X is either carbon or nitrogen. Considering the various elemental composition possibilities, surface functional tunability, various magnetic orders, and large spin–orbit coupling, MXene can truly be considered as multifunctional materials that can be used to realize highly correlated phenomena. Klíčová slova: chemical transformation; MXene; surface grafting; tuned functionalization Plné texty jsou dostupné na jednotlivých ústavech Akademie věd ČR.
Radical-based tuning the surface functionality of MXene

The family of MAX phases and their derivative MXenes are continuously growing in terms of both crystalline and composition varieties. MXenes are a new family of two-dimensional (2D) transition metal ...

Olshtrem, A.; Chertopalov, Sergii; Guselnikova, O.; Švorčík, V.; Lyutakov, O.
Fyzikální ústav, 2021

Nanostructured layer enhancing light extraction from GaN-based scintillator using MOVPE
Vaněk, Tomáš; Hubáček, Tomáš; Hájek, František; Dominec, Filip; Pangrác, Jiří; Kuldová, Karla; Oswald, Jiří; Hospodková, Alice
2021 - anglický
Light extraction (LE) efficiency of GaN buffer layer was studied by angle-resolved photoluminescence. We measured enhancement of light extraction efficiency (LEE) up to 154% by introducing the SiNx layer atop the GaN buffer and subsequent GaN light extraction layer (LEL) overgrowth. Morphological properties of GaN. Klíčová slova: MOVPE; GaN; light extraction; SiNx; scintillator Plné texty jsou dostupné na jednotlivých ústavech Akademie věd ČR.
Nanostructured layer enhancing light extraction from GaN-based scintillator using MOVPE

Light extraction (LE) efficiency of GaN buffer layer was studied by angle-resolved photoluminescence. We measured enhancement of light extraction efficiency (LEE) up to 154% by introducing the SiNx ...

Vaněk, Tomáš; Hubáček, Tomáš; Hájek, František; Dominec, Filip; Pangrác, Jiří; Kuldová, Karla; Oswald, Jiří; Hospodková, Alice
Fyzikální ústav, 2021

Effect of the substrate crystalline orientation on the surface morphology and boron incorporation into epitaxial diamond layers
Voves, J.; Pošta, A.; Davydova, Marina; Laposa, A.; Povolný, V.; Hazdra, P.; Lambert, Nicolas; Sedláková, Silvia; Mortet, Vincent
2021 - anglický
Epitaxial growth of diamond is critically important for the fabrication of diamond-based electronic devices. The emerging study of the epitaxial diamond growth on the (113) vicinal surfaces evidences highly needed high growth rates and low structural defects concentrations with both p- and n-type doping. In this work, we compare the morphology and dopant concentration incorporation of heavily boron-doped (113) epitaxial diamond layers with conventionally studied (100) and (111) epitaxial layers. Epitaxial layers were grown using resonance cavity Microwave Plasma Enhanced Chemical Vapor Deposition (MWPECVD) system. The surface morphology of epitaxial layers was studied by optical microscopy and atomic force microscopy, whereas the boron incorporation homogeneity was determined by Raman spectroscopy mapping. Klíčová slova: diamond; epitaxy; defects; boron doping; Raman mapping Plné texty jsou dostupné na jednotlivých ústavech Akademie věd ČR.
Effect of the substrate crystalline orientation on the surface morphology and boron incorporation into epitaxial diamond layers

Epitaxial growth of diamond is critically important for the fabrication of diamond-based electronic devices. The emerging study of the epitaxial diamond growth on the (113) vicinal surfaces evidences ...

Voves, J.; Pošta, A.; Davydova, Marina; Laposa, A.; Povolný, V.; Hazdra, P.; Lambert, Nicolas; Sedláková, Silvia; Mortet, Vincent
Fyzikální ústav, 2021

General overview of GaN devices and transport properties of AlGaN/GaN HEMT structures - impact of dislocation density and improved design
Hulicius, Eduard; Hájek, František; Hospodková, Alice; Hubík, Pavel; Gedeonová, Zuzana; Hubáček, Tomáš; Pangrác, Jiří; Kuldová, Karla
2021 - anglický
GaN-based nanostructures are used for many present semiconductor devices. The main topics are structures for blue LEDs and LDs, but there are also other interesting and important GaN devices namely for power electronics, scintillators and detectors as well as High Electron Mobility Transistors (HEMT). Reduction of dislocation density considerably increases electron mobility in 2DEG. All presented results support our expectation that a suitably designed AlGaN back barrier can help to prevent this phenomenon. Klíčová slova: GaN devices; HEMT; MOVPE epitaxy; dislocation Plné texty jsou dostupné na jednotlivých ústavech Akademie věd ČR.
General overview of GaN devices and transport properties of AlGaN/GaN HEMT structures - impact of dislocation density and improved design

GaN-based nanostructures are used for many present semiconductor devices. The main topics are structures for blue LEDs and LDs, but there are also other interesting and important GaN devices namely ...

Hulicius, Eduard; Hájek, František; Hospodková, Alice; Hubík, Pavel; Gedeonová, Zuzana; Hubáček, Tomáš; Pangrác, Jiří; Kuldová, Karla
Fyzikální ústav, 2021

Time-lapse monitoring of cell mechanical properties
Přibyl, J.; Rotrekl, V.; Pešl, M.; Jelínková, Š.; Kratochvílová, Irena
2021 - anglický
Atomic force microscopy (AFM) is a highly sensitive non-invasive surface method able to provide insight into cells' mechanical parameters. Membrane and sub-membrane development, as well as internal cellular properties, can be monitored. The stiffness of cells is a fundamental phenomenon that reflects changes in cell physiology. More importantly, changes in cell mechanical properties are also often found to be closely associated with various disease conditions. Cell mechanics are mainly dependent on cytoskeletal architecture. The development of cryopreserved cells' mechanical properties (stiffness) after thawing was studied using AFM.\n Klíčová slova: atomic force microscopy; mechanical Mapping; cell stiffness; cryopreservation Plné texty jsou dostupné na jednotlivých ústavech Akademie věd ČR.
Time-lapse monitoring of cell mechanical properties

Atomic force microscopy (AFM) is a highly sensitive non-invasive surface method able to provide insight into cells' mechanical parameters. Membrane and sub-membrane development, as well as internal ...

Přibyl, J.; Rotrekl, V.; Pešl, M.; Jelínková, Š.; Kratochvílová, Irena
Fyzikální ústav, 2021

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