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1. Terahertz Emission From Diamond Nitrogen-Vacancy Centers

Author

Kollarics, Sándor, Márkus, Bence Gábor, Kucsera, Robin, Thiering, Gergő, Gali, Ádám, Németh, Gergely, Kamarás, Katalin, Forró, László, and Simon, Ferenc

Subjects
Physics - Optics, Condensed Matter - Other Condensed Matter, Physics - Applied Physics
Abstract

Coherent light sources emitting in the terahertz range are highly sought after for fundamental research and applications. THz lasers rely on achieving population inversion. We demonstrate the generation of THz radiation using nitrogen-vacancy (NV) centers in a diamond single crystal. Population inversion is achieved through the Zeeman splitting of the $S=1$ state in $15\ \text{T}$, resulting in a splitting of $0.42\ \text{THz}$, where the middle $S_z=0$ sublevel is selectively pumped by visible light. To detect the THz radiation, we utilize a phase-sensitive THz setup, optimized for electron spin resonance measurements (ESR). We determine the spin-lattice relaxation time up to $15\ \text{T}$ using the light-induced ESR measurement, which shows the dominance of phonon-mediated relaxation and the high efficacy of the population inversion. The THz radiation is tunable by the magnetic field, thus these findings may lead to the next generation of tunable coherent THz sources., Comment: 45 pages, 14 figures

Published
2024
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2. Generalized Mie theory for full-wave numerical calculations of scattering near-field optical microscopy with arbitrary geometries

Author

Datz, Dániel, Németh, Gergely, Rátkai, László, Pekker, Áron, and Kamarás, Katalin

Subjects
Condensed Matter - Materials Science, Physics - Optics
Abstract

Scattering-type scanning near-field optical microscopy is becoming a premier method for the nanoscale optical investigation of materials well beyond the diffraction limit. A number of popular numerical methods exist to predict the near-field contrast for axisymmetric configurations of scatterers on a surface in the quasi-electrostatic approximation. Here, a fully electrodynamic approach is given for the calculation of near-field contrast of several scatterers in arbitrary configuration, based on the generalized Mie scattering method. Examples for the potential of this new approach are given by showing the coupling of hyperbolic phonon polaritons in hexagonal boron nitride layers and showing enhanced scattering in core-shell systems. In general, this method enables the numerical calculation of the near-field contrast in a variety of strongly resonant scatterers and is able to accurately recreate spatial near-field maps.

Published
2023

3. Encapsulation of the Graphene Nanoribbon Precursor 1,2,4-trichlorobenzene in Boron Nitride Nanotubes at Room Temperature

Author

Cadena, Ana, Pekker, Áron, Botka, Bea, Dodony, Erzsébet, Fogarassy, Zsolt, Pécz, Béla, and Kamarás, Katalin

Subjects
Condensed Matter - Materials Science
Abstract

Graphene nanoribbons are prepared inside boron nitride nanotubes by liquid phase encapsulation and subsequent annealing of 1,2,4-trichlorobenzene. The product is imaged with high resolution transmission electron microscopy, and characterized by optical absorption and Raman spectroscopy. Carbon-containing material is detected inside the boron nitride nanotubes with energy-dispersive x-ray spectroscopy (EDS) and scanning transmission electron microscopy (STEM). The observed structures twist under the electron beam and the characteristic features of nanoribbons appear in the Raman spectra., Comment: 8 pages, 4 figures

Published
2022
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4. Molecular encapsulation from the liquid phase and graphene nanoribbon growth in carbon nanotubes

Author

Cadena, Ana, Botka, Bea, Pekker, Áron, Tschannen, Cla Duri, Lombardo, Chiara, Novotny, Lukas, Khlobystov, Andrei N., and Kamarás, Katalin

Subjects
Condensed Matter - Materials Science
Abstract

Growing graphene nanoribbons from small organic molecules encapsulated in carbon nanotubes can result in products with uniform width and chirality. We propose a method based on encapsulation of 1,2,4-trichlorobenzene from the liquid phase and subsequent annealing. This procedure results in graphene nanoribbons several tens of nanometers long. The presence of nanoribbons was proven by Raman spectra both on macroscopic samples and on the nanoscale by tip-enhanced Raman scattering and high-resolution transmission electron microscopic images., Comment: 20 pages, 5 figures

Published
2022
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5. The composition and structure of the ubiquitous hydrocarbon contamination on van der Waals materials

Author

Pálinkás, András, Kálvin, György, Vancsó, Péter, Kandrai, Konrád, Szendrő, Márton, Németh, Gergely, Németh, Miklós, Pekker, Áron, Pap, József S., Petrik, Péter, Kamarás, Katalin, Tapasztó, Levente, and Nemes-Incze, Péter

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The behavior of single layer van der Waals (vdW) materials is profoundly influenced by the immediate atomic environment at their surface, a prime example being the myriad of emergent properties in artificial heterostructures. Equally significant are adsorbates deposited onto their surface from ambient. While vdW interfaces are well understood, our knowledge regarding atmospheric contamination is severely limited. Here we show that the common ambient contamination on the surface of: graphene, graphite, hBN and MoS2 is composed of a self-organized molecular layer, which forms during a few days of ambient exposure. Using low-temperature STM measurements we image the atomic structure of this adlayer and in combination with infrared spectroscopy identify the contaminant molecules as normal alkanes with lengths of 20-26 carbon atoms. Through its ability to self-organize, the alkane layer displaces the manifold other airborne contaminant species, capping the surface of vdW materials and possibly dominating their interaction with the environment.

Published
2022
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6. Polaritonic Enhancement of Near-field Scattering of Small Molecules Encapsulated in Boron Nitride Nanotubes

Author

Datz, Daniel, Nemeth, Gergely, Pekker, Aron, and Kamaras, Katalin

Subjects
Physics - Applied Physics, Condensed Matter - Materials Science
Abstract

Near-field spectroscopy has been extensively applied recently to analyze collective optical properties of materials at the nanoscale. However, vibrations of small molecules were only recognizable in close proximity to a metallic resonator. We show that encapsulation in boron nitride nanotubes (BNNT) enhances the near-field vibrational spectra of C$_{60}$ fullerene, reaching a sensitivity limit of a few hundred molecules. Furthermore, products of chemical reactions inside the tubes can be identified, so long as their vibrational signatures lie in the polariton gap of the BNNT., Comment: 7 pages, 4 figures

Published
2020
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7. Near-field optical investigation of Ni clusters inside single-walled carbon nanotubes on the nanometer scale

Author

Németh, Gergely, Datz, Dániel, Pekker, Áron, Saito, Takeshi, Domanov, Oleg, Shiozawa, Hidetsugu, Lenk, Sándor, Pécz, Béla, Koppa, Pál, and Kamarás, Katalin

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We used scattering-type scanning near-field optical microscopy (s-SNOM) to characterize nickel nanoclusters grown inside single-walled carbon nanotubes (SWCNT). The nanotubes were filled with Ni(II) acetylacetonate and the molecules were transformed into nickel clusters via annealing. The metal clusters give high local contrast enhancement in near-field phase maps caused by the excitation of free charge carriers. The near-field contrast was simulated using the finite dipole model, approximating the clusters with elliptical nanoparticles. Compared to magnetic force microscopy, s-SNOM appears much more sensitive to localize metal clusters inside carbon nanotubes. We estimate the detection threshold to be ~600 Ni atoms., Comment: 8 pages, 7 figures

Published
2018
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9. Direction-dependent secondary bonds and their stepwise melting in a uracil-based molecular crystal studied by infrared spectroscopy and theoretical modeling

Author

Szekrényes, Zsolt, Nagy, Péter R., Tarczay, György, Maggini, Laura, Bonifazi, Davide, and Kamarás, Katalin

Subjects
Condensed Matter - Materials Science
Abstract

Three types of supramolecular interactions are identified in the three crystallographic directions in crystals of 1,4-bis[(1-hexylurac-6-yl)ethynyl]benzene, a uracil-based molecule with a linear backbone. These three interactions, characterized by their strongest component, are: intermolecular double H-bonds along the molecular axis, London dispersion interaction of hexyl chains connecting these linear assemblies, and $\pi$--$\pi$ stacking of the aromatic rings perpendicular to the molecular planes. On heating, two transitions happen, disordering of hexyl chains at 473 K, followed by H-bond melting at 534 K. The nature of the bonds and transitions was established by matrix-isolation and temperature-dependent infrared spectroscopy and supported by theoretical computations., Comment: 14 pages, 5 figures

Published
2017
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10. Integrating Cu 2 O Colloidal Mie Resonators in Structurally Colored Butterfly Wings for Bio-Nanohybrid Photonic Applications.

Author

Piszter, Gábor, Kertész, Krisztián, Kovács, Dávid, Zámbó, Dániel, Cadena, Ana, Kamarás, Katalin, and Biró, László Péter

Subjects
MIE scattering, REFLECTANCE spectroscopy, MICROSCOPY, OPTICAL properties, REFRACTIVE index, ATTENUATED total reflectance
Abstract

Colloidal Cu2O nanoparticles can exhibit both photocatalytic activity under visible light illumination and resonant Mie scattering, but, for their practical application, they have to be immobilized on a substrate. Butterfly wings, with complex hierarchical photonic nanoarchitectures, constitute a promising substrate for the immobilization of nanoparticles and for the tuning of their optical properties. The native wax layer covering the wing scales of Polyommatus icarus butterflies was removed by simple ethanol pretreatment prior to the deposition of Cu2O nanoparticles, which allowed reproducible deposition on the dorsal blue wing scale nanoarchitectures via drop casting. The samples were investigated by optical and electron microscopy, attenuated total reflectance infrared spectroscopy, UV–visible spectrophotometry, microspectrophotometry, and hyperspectral spectrophotometry. It was found that the Cu2O nanoparticles integrated well into the photonic nanoarchitecture of the P. icarus wing scales, they exhibited Mie resonance on the glass slides, and the spectral signature of this resonance was absent on Si(100). A novel bio-nanohybrid photonic nanoarchitecture was produced in which the spectral properties of the butterfly wings were tuned by the Cu2O nanoparticles and their backscattering due to the Mie resonance was suppressed despite the low refractive index of the chitinous substrate. [ABSTRACT FROM AUTHOR]

Published
2024
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11. Terahertz emission from diamond nitrogen-vacancy centers

Author

Kollarics, Sándor, primary, Márkus, Bence Gábor, additional, Kucsera, Robin, additional, Thiering, Gergő, additional, Gali, Ádám, additional, Németh, Gergely, additional, Kamarás, Katalin, additional, Forró, László, additional, and Simon, Ferenc, additional

Published
2024
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12. Dextran-based Hydrogel Layers for Biosensors

Author

Saftics, Andras, Türk, Barbara, Sulyok, Attila, Nagy, Norbert, Agócs, Emil, Kalas, Benjámin, Petrik, Péter, Fried, Miklós, Khánh, Nguyen Quoc, Prósz, Aurél, Kamarás, Katalin, Szekacs, Inna, Horvath, Robert, Kurunczi, Sándor, Chandra, Pranjal, editor, and Prakash, Rajiv, editor

Published
2020
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13. Breakdown of diameter selectivity in a reductive hydrogenation reaction of single-walled carbon nanotubes

Author

Nemeth, Katalin, Jakab, Emma, Borondics, Ferenc, Tohati, Hajnalka M., Pekker, Aron, Bokor, Monika, Verebelyi, Tamas, Tompa, Kalman, Pekker, Sandor, and Kamaras, Katalin

Subjects
Condensed Matter - Materials Science
Abstract

Reductive hydrogenation was applied to two types of single-walled carbon nanotubes with different diameter range. Alkali metal intercalation, followed by reaction with methanol, led to hydrogenated products. Both yield and selectivity of this reaction showed strong dependence on diameter, contrary to expectation based on simple curvature effects. The observed yield, as detected by thermogravimetry-mass spectroscopy and 1H-NMR, is drastically reduced in small-diameter tubes where the alkali dopant does not reach the inside of the bundles. Wide range optical transmission measurements were employed to determine the selectivity and indicate that besides higher yield, lower diameter selectivity occurs above a critical diameter., Comment: 14 pages, 4 figures

Published
2014
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14. Mott localization in the correlated superconductor Cs3C60 resulting from the molecular Jahn-Teller effect

Author

Kamaras, Katalin, Klupp, Gyongyi, Matus, Peter, Ganin, Alexey Y., McLennan, Alec, Rosseinsky, Matthew J., Takabayashi, Yasuhiro, McDonald, Martin T., and Prassides, Kosmas

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science
Abstract

Cs3C60 is a correlated superconductor under pressure, but an insulator under ambient conditions. The mechanism causing this insulating behavior is the combination of Mott localization and the dynamic Jahn-Teller effect. We show evidence from infrared spectroscopy for the dynamic Jahn-Teller distortion. The continuous change with temperature of the splitting of infrared lines is typical Jahn-Teller behavior, reflecting the change in population of solid-state conformers. We conclude that the electronic and magnetic solid-state properties of the insulating state are controlled by molecular phenomena. We estimate the time scale of the dynamic Jahn-Teller effect to be above 10^(-11) s and the energy difference between the conformers less than 20 cm-1., Comment: 6 pages, 4 figures, 1 supplementary movie; XXI International Symposium on the Jahn-Teller Effect, Tsukuba, Japan, August 26-31, 2012

Published
2013
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15. Wide-range optical studies on various single-walled carbon nanotubes: the origin of the low-energy gap

Author

Pekker, Áron and Kamarás, Katalin

Subjects
Condensed Matter - Materials Science
Abstract

We present wide-range (3 meV - 6 eV) optical studies on freestanding transparent carbon nanotube films, made from nanotubes with different diameter distributions. In the far-infrared region, we found a low-energy gap in all samples investigated. By a detailed analysis we determined the average diameters of both the semiconducting and metallic species from the near infrared/visible features of the spectra. Having thus established the dependence of the gap value on the mean diameter, we find that the frequency of the low energy gap is increasing with increasing curvature. Our results strongly support the explanation of the low-frequency feature as arising from a curvature-induced gap instead of effective medium effects. Comparing our results with other theoretical and experimental low-energy gap values, we find that optical measurements yield a systematically lower gap than tunneling spectroscopy and DFT calculations, the difference increasing with decreasing diameter. This difference can be assigned to electron-hole interactions., Comment: 9 pages, 8 figures, to be published in Physical Review B, supplemental material attached v2: Figures 1, 7 and 8 replaced, minor changes to text; v3: Figures 3, 4 and 5 replaced, minor changes to text

Published
2011
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16. A general figure of merit for thick and thin transparent conductive carbon nanotube coatings

Author

Pekker, Aron and Kamaras, Katalin

Subjects
Condensed Matter - Materials Science
Abstract

We suggest a wavelength-dependent figure of merit for transparent conducting nanotube networks, composed of the sheet resistance and the optical density. We argue that this would be more useful than other suggestions prevailing in the literature, because it relies on more realistic assumptions regarding the optical parameters of real nanotubes: it takes into account the fact that the dc resistivity depends on the concentration of free carriers, while the visible absorption is caused by bound carriers. Based on sheet resistance measurements and wide-range transmission spectra, we compare several commercial nanotube types and find correlation between metal enrichment and figure of merit. A simple graphical approach is suggested to determine if the required optical and transport properties can be achieved by varying the thickness of the nanotube layer or a more aggressive treatment is needed. The procedure can be extended to oxide coatings as well., Comment: 17 pages, 7 figures

Published
2010
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17. Crystallogprahically selective nanopatterning of graphene on SiO2

Author

Incze, Peter Nemes, Magda, Gabor, Kamaras, Katalin, and Biro, Laszlo Peter

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

Graphene has many advantageous properties, but its lack of an electronic band gap makes this two dimensional material impractical for many nanoelectronic applications, for example field effect transistors. This problem can be circumvented by opening up a confinement induced gap, through the patterning of graphene into ribbons having widths of a few nanometres. The electronic properties of such ribbons depend on their size and the crystallographic orientation of the ribbon edges. Therefore, etching processes that are able to differentiate between the zigzag and armchair type edge terminations of graphene are highly sought after. In this contribution we show that such an anisotropic, dry etching reaction is possible and we use it to obtain graphene ribbons with zigzag edges. We demonstrate that the starting positions for the carbon removal reaction can be tailored at will with precision.

Published
2009

18. Generalized Mie Theory for Full-Wave Numerical Calculations of Scattering Near-Field Optical Microscopy with Arbitrary Geometries.

Author

Datz, Dániel, Németh, Gergely, Rátkai, László, Pekker, Áron, and Kamarás, Katalin

Subjects
NEAR-field microscopy, MIE scattering, LIGHT scattering, POLARITONS, OPTICAL materials, PHONONS
Abstract

Scattering-type scanning near-field optical microscopy (s-SNOM) is becoming a premier method for the nanoscale optical investigation of materials well beyond the diffraction limit. A number of popular numerical methods exist to predict the near-field contrast for axisymmetric configurations of scatterers on a surface in the quasi-electrostatic approximation. Here, a fully electrodynamic approach is given for the calculation of near-field contrast of several scatterers in arbitrary configuration, based on the generalized Mie scattering method. Examples for the potential of this new approach are given by showing the coupling of hyperbolic phonon polaritons in hexagonal boron nitride (hBN) layers and showing enhanced scattering in core-shell systems. In general, this method enables the numerical calculation of the near-field contrast in a variety of strongly resonant scatterers and is able to accurately recreate spatial near-field maps. [ABSTRACT FROM AUTHOR]

Published
2024
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21. Transparent, Conductive Carbon Nanotube Films

Author

Wu, Zhuangchun, Chen, Zhihong, Du, Xu, Logan, Jonathan M., Sippel, Jennifer, Nikolou, Maria, Kamaras, Katalin, Reynolds, John R., Tanner, David B., Hebard, Arthur F., and Rinzler, Andrew G.

Published
2004

22. Amino-Termination of Silicon Carbide Nanoparticles

Author

Czene, Szabolcs, primary, Jegenyes, Nikoletta, additional, Krafcsik, Olga, additional, Lenk, Sándor, additional, Czigány, Zsolt, additional, Bortel, Gábor, additional, Kamarás, Katalin, additional, Rohonczy, János, additional, Beke, David, additional, and Gali, Adam, additional

Published
2023
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26. Insights into the amorphous calcium carbonate (ACC) → ikaite → calcite transformations

Author

Lázár, Anett, primary, Molnár, Zsombor, additional, Demény, Attila, additional, Kótai, László, additional, Trif, László, additional, Béres, Kende Attila, additional, Bódis, Eszter, additional, Bortel, Gábor, additional, Aradi, László Előd, additional, Karlik, Máté, additional, Szabó, Máté Zoltán, additional, Pekker, Áron, additional, Németh, Gergely, additional, Kamarás, Katalin, additional, Garvie, Laurence A. J., additional, and Németh, Péter, additional

Published
2023
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27. The composition and structure of the ubiquitous hydrocarbon contamination on van der Waals materials

Author

Pálinkás, András, primary, Kálvin, György, additional, Vancsó, Péter, additional, Kandrai, Konrád, additional, Szendrő, Márton, additional, Németh, Gergely, additional, Németh, Miklós, additional, Pekker, Áron, additional, Pap, József S., additional, Petrik, Péter, additional, Kamarás, Katalin, additional, Tapasztó, Levente, additional, and Nemes-Incze, Péter, additional

Published
2022
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36. The structural evolution, optical gap, and thermoelectric properties of the RbPb2Br5 layered halide, prepared by mechanochemistry

Author

Abia, Carmen, primary, López, Carlos A., additional, Gainza, Javier, additional, Rodrigues, João Elias F. S., additional, Ferrer, Mateus M., additional, Nemes, N. M., additional, Dura, Oscar J., additional, Martínez, José L., additional, Fernández-Díaz, María T., additional, Álvarez-Galván, Consuelo, additional, Németh, Gergely, additional, Kamarás, Katalin, additional, Fauth, François, additional, and Alonso, José A., additional

Published
2022
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38. Encapsulation of the Graphene Nanoribbon Precursor 1,2,4‐Trichlorobenzene in Boron Nitride Nanotubes at Room Temperature.

Author

Cadena, Ana, Pekker, Áron, Botka, Bea, Dodony, Erzsébet, Fogarassy, Zsolt, Pécz, Béla, and Kamarás, Katalin

Subjects
BORON nitride, SCANNING transmission electron microscopy, NANOTUBES, GRAPHENE, LIGHT absorption, TRANSMISSION electron microscopy
Abstract

Graphene nanoribbons are prepared inside boron nitride nanotubes by liquid phase encapsulation and subsequent annealing of 1,2,4‐trichlorobenzene. The product is imaged with high‐resolution transmission electron microscopy, and characterized by optical absorption and Raman spectroscopy. Carbon‐containing material is detected inside the boron nitride nanotubes with energy‐dispersive X‐ray spectroscopy (EDS) and scanning transmission electron microscopy (STEM). The observed structures twist under the electron beam and the characteristic features of nanoribbons appear in the Raman spectra. [ABSTRACT FROM AUTHOR]

Published
2023
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41. Silicon carbide quantum dots for bioimaging

Author

Beke, David, Szekrényes, Zsolt, Pálfi, Denes, Róna, Gergely, Balogh, István, Maák, Pal Andor, Katona, Gergely, Czigány, Zsolt, Kamarás, Katalin, Rózsa, Balazs, Buday, Laszlo, Vértessy, Beata, and Gali, Adam

Published
2013
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43. Dynamic disorder in the high-temperature polymorph of bis[diamminesilver(I)] sulfate—reasons and consequences of simultaneous ammonia release from two different polymorphs

Author

Bereczki, Laura, primary, Fogaça, Lara Alexandre, additional, Dürvanger, Zsolt, additional, Harmat, Veronika, additional, Kamarás, Katalin, additional, Németh, Gergely, additional, Holló, Berta Barta, additional, Petruševski, Vladimir M., additional, Bódis, Eszter, additional, Farkas, Attila, additional, Szilágyi, Imre Miklós, additional, and Kótai, László, additional

Published
2021
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47. Enhancement of X-ray-Excited Red Luminescence of Chromium-Doped Zinc Gallate via Ultrasmall Silicon Carbide Nanocrystals

Author

Beke, Dávid, primary, Nardi, Marco V., additional, Bortel, Gábor, additional, Timpel, Melanie, additional, Czigány, Zsolt, additional, Pasquali, Luca, additional, Chiappini, Andrea, additional, Bais, Giorgio, additional, Rudolf, Mátyás, additional, Zalka, Dóra, additional, Bigi, Franca, additional, Rossi, Francesca, additional, Bencs, László, additional, Pekker, Aron, additional, Márkus, Bence G., additional, Salviati, Giancarlo, additional, Saddow, Stephen E., additional, Kamarás, Katalin, additional, Simon, Ferenc, additional, and Gali, Adam, additional

Published
2021
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48. Solid-Phase Quasi-Intramolecular Redox Reaction of [Ag(NH3)2]MnO4: An Easy Way to Prepare Pure AgMnO2

Author

Fogaca, Lara A., primary, Kováts, Éva, additional, Németh, Gergely, additional, Kamarás, Katalin, additional, Béres, Kende A., additional, Németh, Péter, additional, Petruševski, Vladimir, additional, Bereczki, Laura, additional, Holló, Berta Barta, additional, Sajó, István E., additional, Klébert, Szilvia, additional, Farkas, Attila, additional, Szilágyi, Imre M., additional, and Kótai, László, additional

Published
2021
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50. The structural evolution, optical gap, and thermoelectric properties of the RbPb2Br5 layered halide, prepared by mechanochemistry.

Author

Abia, Carmen, López, Carlos A., Gainza, Javier, Rodrigues, João Elias F. S., Ferrer, Mateus M., Nemes, N. M., Dura, Oscar J., Martínez, José L., Fernández-Díaz, María T., Álvarez-Galván, Consuelo, Németh, Gergely, Kamarás, Katalin, Fauth, François, and Alonso, José A.

Abstract

Rubidium di-lead pentabromide, RbPb2Br5, belongs to a family of layered lead-containing halides, with the common formula APb2X5 (where A = K, Rb, Cs; X = Cl, Br). The optical properties of RbPb2Br5 and rare-earth doped specimens are promising as low-phonon energy materials for tunable middle infrared and long-wavelength infrared laser sources, with suitable stability and resistance to wet conditions. In contrast to CsPb2Br5, the Rb counterpart has been barely studied and deserves further attention. Up to now, there have been no experimental reports on the transport properties such as the electronic conductivity, Seebeck coefficient or thermal transport. We describe here that this material can be prepared by ball milling in a straightforward way, yielding specimens with superior crystallinity. A structural investigation using synchrotron X-ray powder diffraction (SXRD) data combined with neutron powder diffraction (NPD) in a wide temperature range, from 15 to 573 K, was essential to evaluate the thermal evolution and to determine the Debye constants, yielding information on the relative Rb–Br and Pb–Br chemical bonds. In combination with DSC and TG measurements, no phase transitions were observed. Furthermore, an analysis of SXRD and NPD data (XRD-NPD) at room temperature reveals the directions of electron lone pair of Pb2+ ions lead atoms: its stereochemical effect is obvious in the [PbBr8] octahedral distortions. Diffuse reflectance UV-Vis spectroscopy yields an optical gap of 3.36 eV, close to that determined for a single-crystal material. Photoluminescence measurements indicate a lack of overlap between the excitation and emission spectra, due to the considerable Stokes shift, which prohibits self-absorption and thus enables applications in photovoltaics and biomedicine. The experimental information about the chemical bonds and band gap was studied via first-principles calculations. A maximum positive Seebeck coefficient of 3 200 μV K−1 is obtained at 560 K, which is one order of magnitude higher than those reported for other halide perovskites. [ABSTRACT FROM AUTHOR]

Published
2022
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