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29 results on '"Melnikov, Anatoly R."'

1. Inductive detection of temperature-induced magnetization dynamics of molecular spin systems.

Author

Melnikov, Anatoly R., Ivanov, Mikhail Yu., Samsonenko, Arkady A., Getmanov, Yaroslav V., Nikovskiy, Igor A., Matiukhina, Anna K., Zorina-Tikhonova, Ekaterina N., Voronina, Julia K., Goloveshkin, Alexander S., Babeshkin, Konstantin A., Efimov, Nikolay N., Kiskin, Mikhail A., Eremenko, Igor L., Fedin, Matvey V., and Veber, Sergey L.

Subjects
*FREE electron lasers, *MOLECULAR dynamics, *ELECTRON paramagnetic resonance, *MAGNETIZATION, *COORDINATION compounds, *CHEMICAL kinetics
Abstract

The development and technological applications of molecular spin systems require versatile experimental techniques to characterize and control their static and dynamic magnetic properties. In the latter case, bulk spectroscopic and magnetometric techniques, such as AC magnetometry and pulsed electron paramagnetic resonance, are usually employed, showing high sensitivity, wide dynamic range, and flexibility. They are based on creating a nonequilibrium state either by changing the magnetic field or by applying resonant microwave radiation. Another possible source of perturbation is a laser pulse that rapidly heats the sample. This approach has proven to be one of the most useful techniques for studying the kinetics and mechanism of chemical and biochemical reactions. Inspired by these works, we propose an inductive detection of temperature-induced magnetization dynamics as applied to the study of molecular spin systems and describe the general design and construction of a particular induction probehead, taking into account the constraints imposed by the cryostat and electromagnet. To evaluate the performance, several coordination compounds of VO2+, Co2+, and Dy3+ were investigated using low-energy pulses of a terahertz free electron laser of the Novosibirsk free electron laser facility as a heat source. All measured magnetization dynamics were qualitatively or quantitatively described using a proposed basic theoretical model and compared with the data obtained by alternating current magnetometry. Based on the results of the research, the possible scope of applications of inductive detection and its advantages and disadvantages in comparison with standard methods are discussed. [ABSTRACT FROM AUTHOR]

Published
2024
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3. Temperature Dependence of the Sensitivity of PVDF Pyroelectric Sensors to THz Radiation: Towards Cryogenic Applications.

Author

Sinelnikov, Artem N., Melnikov, Anatoly R., Getmanov, Yaroslav V., Kolomeec, Darya A., Kalneus, Evgeny V., Fedin, Matvey V., and Veber, Sergey L.

Subjects
*PYROELECTRIC detectors, *ELECTRON paramagnetic resonance, *POLYVINYLIDENE fluoride, *INDIUM tin oxide, *METAL coating
Abstract

The application of terahertz (THz) science in industrial technology and scientific research requires efficient THz detectors. Such detectors should be able to operate under various external conditions and conform to existing geometric constraints in the required application. Pyroelectric THz detectors are among the best candidates. This is due to their versatility, outstanding performance, ease of fabrication, and robustness. In this paper, we propose a compact pyroelectric detector based on a bioriented poled polyvinylidene difluoride film coated with sputtered metal electrodes for in situ absorption measurement at cryogenic temperature. The detector design was optimized for the registration system of the electron paramagnetic resonance (EPR) endstation of the Novosibirsk Free Electron Laser facility. Measurements of the detector response to pulsed THz radiation at different temperatures and electrode materials showed that the response varies with both the temperature and the type of electrode material used. The maximum signal level corresponds to the temperature range of 10–40 K, in which the pyroelectric coefficient of the PVDF film also has a maximum value. Among the three coatings studied, namely indium tin oxide (ITO), Au, and Cu/Ni, the latter has the highest increase in sensitivity at low temperature. The possibility of using the detectors for in situ absorption measurement was exemplified using two typical molecular spin systems, which exhibited a transparency of 20–30% at 76.9 cm−1 and 5 K. Such measurements, carried out directly in the cryostat with the main recording system and sample fully configured, allow precise control of the THz radiation parameters at the EPR endstation. [ABSTRACT FROM AUTHOR]

Published
2024
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6. The role of Heisenberg spin exchange and the quantum Zeno effect in the spin-selective reaction between spin-1/2 and spin-1 particles.

Author

Bagryansky, Victor A., Melnikov, Anatoly R., Molin, Yuri N., and Borovkov, Vsevolod I.

Subjects
*SPIN exchange, *COHERENCE (Physics), *ELECTRON spin, *EXCHANGE reactions, *CHEMICAL kinetics, *PHOSPHORESCENCE spectroscopy
Abstract

The kinetics of spin-selective reactions involving triplet molecules, such as triplet–triplet annihilation or electron transfer to dioxygen molecules in the ground triplet spin state, are strongly dependent on the dipole–dipole interaction (DDI) of electron spins in spin-1 particles. The effect of this interaction on the intersystem crossing in the reaction encounter complex of the paramagnetic particles was previously considered for some particular cases using oversimplified approaches. In this study, we consider a rigorous kinetic model of the irreversible reaction between the spin-1/2 and spin-1 particles in an encounter complex with the reactive doublet state. This model explicitly includes both isotropic exchange coupling of the reactants and spin dependence of the reaction rate in the form of the Haberkorn reaction term. For the time-independent DDI, an analytical expression for the reaction kinetics was derived. The effect of DDI fluctuations was analyzed using numerical simulations. It was found that increasing both the exchange coupling and the reaction rate constants can significantly slow down the quartet–doublet spin transitions and, as a consequence, the observed spin-selective reaction rate. Additionally, the presence of the irreversible reaction in the doublet states affects a coherent evolution in the non-reactive quartet subsystem. [ABSTRACT FROM AUTHOR]

Published
2022
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16. Water-soluble Re6-clusters with aromatic phosphine ligands – from synthesis to potential biomedical applications

Author

Ivanov, Anton A., primary, Konovalov, Dmitry I., additional, Pozmogova, Tatiana N., additional, Solovieva, Anastasiya O., additional, Melnikov, Anatoly R., additional, Brylev, Konstantin A., additional, Kuratieva, Natalia V., additional, Yanshole, Vadim V., additional, Kirakci, Kaplan, additional, Lang, Kamil, additional, Cheltygmasheva, Svetlana N., additional, Kitamura, Noboru, additional, Shestopalova, Lidiya V., additional, Mironov, Yuri V., additional, and Shestopalov, Michael A., additional

Published
2019
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17. Determination of Hyperfine Coupling Constants of Fluorinated Diphenylacetylene Radical Anions by Magnetic Field-Affected Reaction Yield Spectroscopy

Author

Sannikova, Victoria A., primary, Davydova, Maria P., additional, Sherin, Peter S., additional, Babenko, Simon V., additional, Korolev, Valeri V., additional, Stepanov, Alexander A., additional, Nikul’shin, Pavel V., additional, Kalneus, Evgeny V., additional, Vasilevsky, Sergei F., additional, Benassi, Enrico, additional, and Melnikov, Anatoly R., additional

Published
2018
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18. X-ray Generated Recombination Exciplexes of Substituted Diphenylacetylenes with Tertiary Amines: A Versatile Experimental Vehicle for Targeted Creation of Deep-Blue Electroluminescent Systems

Author

Melnikov, Anatoly R., primary, Davydova, Maria P., additional, Sherin, Peter S., additional, Korolev, Valeri V., additional, Stepanov, Alexander A., additional, Kalneus, Evgeny V., additional, Benassi, Enrico, additional, Vasilevsky, Sergei F., additional, and Stass, Dmitri V., additional

Published
2018
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19. A comparative study of optical properties and X-ray induced luminescence of octahedral molybdenum and tungsten cluster complexes

Author

Evtushok, Darya V., primary, Melnikov, Anatoly R., additional, Vorotnikova, Natalya A., additional, Vorotnikov, Yuri A., additional, Ryadun, Alexey A., additional, Kuratieva, Natalia V., additional, Kozyr, Konstantin V., additional, Obedinskaya, Natalia R., additional, Kretov, Evgeniy I., additional, Novozhilov, Igor N., additional, Mironov, Yuri V., additional, Stass, Dmitri V., additional, Efremova, Olga A., additional, and Shestopalov, Michael A., additional

Published
2017
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22. X-ray Generated Recombination Exciplexes of Substituted Diphenylacetylenes with Tertiary Amines: A Versatile Experimental Vehicle for Targeted Creation of Deep-Blue Electroluminescent Systems

Author

Melnikov, Anatoly R., Davydova, Maria P., Sherin, Peter S., Korolev, Valeri V., Stepanov, Alexander A., Kalneus, Evgeny V., Benassi, Enrico, Vasilevsky, Sergei F., and Stass, Dmitri V.

Abstract

Customizable and technology-friendly functional materials are one of the mainstays of emerging organic electronics and optoelectronics. We show that recombination exciplexes of simple substituted diphenylacetylenes with tertiary amines can be a convenient source of tunable deep-blue emission with possible applications in organic electroluminescent systems. The optically inaccessible exciplexes were produced via recombination of radiation-generated radical ion pairs in alkane solution, which mimics charge transport and recombination in the active layer of practical organic light-emitting diodes in a simple solution-based experiment. Despite varying and rather poor intrinsic emission properties, diphenylacetylene and its prototypical methoxy (donor) or trifluoromethyl (acceptor) monosubstituted derivatives readily form recombination exciplexes with N,N-dimethylaniline and other tertiary amines that produce emission with maxima ranging from 385 to 435 nm. The position of emission band maximum linearly correlates with readily calculated gas-phase electron affinity of the corresponding diphenylacetylene, which can be used for fast computational prescreening of the candidate molecules, and various substituted diphenylacetylenes can be synthesized via relatively simple and universal cross-coupling reactions of Sonogashira and Castro. Together, the simple solution-based experiment, computationally cheap prescreening method, and universal synthetic strategy may open a very broad and chemically convenient class of compounds to obtain OLEDs and OLED-based multifunctional devices with tunable emission spectrum and high conversion efficiency that has yet not been seriously considered for these purposes.

Published
2024
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23. Estimation of the Fraction of Spin-Correlated Radical Ion Pairs in Irradiated Alkanes using Magnetosensitive Recombination Luminescence from Exciplexes Generated upon Recombination of a Probe Pair

Author

Melnikov, Anatoly R., primary, Verkhovlyuk, Vladimir N., additional, Kalneus, Evgeny V., additional, Korolev, Valeri V., additional, Borovkov, Vsevolod I., additional, Sherin, Peter S., additional, Davydova, Maria P., additional, Vasilevsky, Sergei F., additional, and Stass, Dmitri V., additional

Published
2016
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25. Estimation of the Fraction of Spin-Correlated Radical Ion Pairs in Irradiated Alkanes using Magnetosensitive Recombination Luminescence from Exciplexes Generated upon Recombination of a Probe Pair.

Author

Verkhovlyuk, Vladimir N., Kalneus, Evgeny V., Korolev, Valeri V., Melnikov, Anatoly R., Borovkov, Vsevolod I., Davydova, Maria P., Vasilevsky, Sergei F., Stass, Dmitri V., and Sherin, Peter S.

Subjects
DIPHENYLACETYLENE, MAGNETIC field effects, RADICAL ions
Abstract

We suggest a convenient probe exciplex system for studies in radiation spin chemistry based on a novel acceptor-substituted diphenylacetylene, 1-(phenylethynyl)-4-(trifluoromethyl)benzene that has a very short fluorescence lifetime (<200 ps) and low quantum yield (0.01) of intrinsic emission, provides efficient electron capture in alkanes and efficient exciplex formation upon recombination in pair with DMA radical cation, while exhibiting a shifted to red exciplex emission band as compared to the parent system DMA - diphenylacetylene. After chemical, luminescent, radiation and spin-chemical characterization of the new system we used the magnitude of magnetic field effect in its exciplex emission band for experimental estimation of the fraction of spin-correlated radical ion pairs under X-irradiation with upper energy cutoff 40 keV in a set of 11 alkanes. For linear and branched alkanes magnetic field effects and the corresponding fractions are approximately 19-20% and 0.28, while for cyclic alkanes they are lower at 16-17% and 0.22, respectively. [ABSTRACT FROM AUTHOR]

Published
2017
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26. Stimulation of luminescence of mycelium of luminous fungus Neonothopanus nambi by ionizing radiation

Author

Kobzeva, Tatiana V., primary, Melnikov, Anatoly R., additional, Karogodina, Tatiana Y., additional, Zikirin, Samat B., additional, Stass, Dmitri V., additional, Molin, Yuri N., additional, Rodicheva, Emma K., additional, Medvedeva, Svetlana E., additional, Puzyr, Alexey P., additional, Burov, Andrey A., additional, Bondar, Vladimir S., additional, and Gitelson, Joseph I., additional

Published
2014
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27. Stimulation of luminescence of mycelium of luminous fungusNeonothopanus nambiby ionizing radiation

Author

Kobzeva, Tatiana V., primary, Melnikov, Anatoly R., additional, Karogodina, Tatiana Y., additional, Zikirin, Samat B., additional, Stass, Dmitri V., additional, Molin, Yuri N., additional, Rodicheva, Emma K., additional, Medvedeva, Svetlana E., additional, Puzyr, Alexey P., additional, Burov, Andrey A., additional, Bondar, Vladimir S., additional, and Gitelson, Joseph I., additional

Published
2014
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29. Estimation of the Fraction of Spin-Correlated Radical Ion Pairs in Irradiated Alkanes using Magnetosensitive Recombination Luminescence from Exciplexes Generated upon Recombination of a Probe Pair

Author

Melnikov, Anatoly R., Verkhovlyuk, Vladimir N., Kalneus, Evgeny V., Korolev, Valeri V., Borovkov, Vsevolod I., Sherin, Peter S., Davydova, Maria P., Vasilevsky, Sergei F., and Stass, Dmitri V.

Abstract

We suggest a convenient probe exciplex system for studies in radiation spin chemistry based on a novel acceptor-substituted diphenylacetylene, 1-(phenylethynyl)-4-(trifluoromethyl)benzene that has a very short fluorescence lifetime (<200 ps) and low quantum yield (0.01) of intrinsic emission, provides efficient electron capture in alkanes and efficient exciplex formation upon recombination in pair with DMA radical cation, while exhibiting a shifted to red exciplex emission band as compared to the parent system DMA – diphenylacetylene. After chemical, luminescent, radiation and spin-chemical characterization of the new system we used the magnitude of magnetic field effect in its exciplex emission band for experimental estimation of the fraction of spin-correlated radical ion pairs under X-irradiation with upper energy cutoff 40 keV in a set of 11 alkanes. For linear and branched alkanes magnetic field effects and the corresponding fractions are approximately 19–20% and 0.28, while for cyclic alkanes they are lower at 16–17% and 0.22, respectively.

Published
2017
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