Публикации:

 

2024:

  1. Volkova T.S., Gavrishchyk E.M., Kut’in A.M., Savin D.V., Nezhdanov A.V., Markelov A.S., Mashin A.I., Kurashkin S.V. Deposition of Fe-doped CdS films by spray pyrolysis from various precursors // Physica B: Condensed Matter. 2024. P. 416140. 
  2. Nezhdanov A.V., Mashin A.I., Baratta M., Nicoletta F., De Filpo G. Carbon nanotubes buckypapers: A new frontier in wastewater treatment technology // Science of the Total Environment. V. 924. 2024. P. 171578. 
  3. Nezhdanov A.V., Mashin A.I., Baratta M., De Filpo G., Nicoletta P. Tuning the morphology and electro-optical properties of reverse mode PDLCs using multifunctional acrylates // Liquid Crystals. 2024. P. 1-9. 
  4.  Skrylev A.A., Nezhdanov A.V., Usanov D., Shestakov D.V., De Filpo G., Baratta M., Mashin A.I. Raman spectroscopy study of disorder in cation sublattice of nonstoichiometric and annealed ZnSnN2// Optical Materials. V. 156. 2024. P. 116035.

 

2023:

  1. Nezhdanov A.V., Skrylev A.A., Shestakov D.V., Usanov D., Fukina D.G., Malyshev A.I., De Filpo G., Mashin A.I. Mixed phase ZnSnN2 thin films for solar energy applications: Insight into optical and electrical properties // Optical Materials. V. 144. 2023. P. 114335. 
  2. Nezhdanov A.V., Mashin A.I., Baratta M., Curcio M., Cirillo G., Nicoletta F.P., De Filpo G. Electrochromic reverse-mode PDLCs as smart windows // Liquid Crystals. 2023. P. 1.   
  3. Нежданов А.В., Жуков А.О., Шестаков Д.В., Виноградова Л.М., Скрылев А.А., Ершов А.В., Павлов Д.А., Андрианов А.И., Маркелов А.С., Машин А.И., De Filpo G., Baratta M. Влияние условий отжига на формирование нанокристаллической фазы в пленках TiOx // Поверхность. Рентгеновские, синхротронные и нейтронные исследования. Т. 10. 2023. С. 41-46. 
  4. Ershov A.V., Levin A.A., Baidakova M.V., Bert N.A., Sokura L.A., Zaitsev A.V., Kryukov R.N., Zubkov S.Yu., Nikolichev D.E., Nezhdanov A.V., Sreseli O.M., Mashin A.I. Structure, Morphology, Chemical Composition, and Optical Properties of Annealed Multilayer Ge/Al2O3 and Si/Ge/Si/Al2O3 Nanoperiodic Systems // Journal of Surface Investigation. V. 17. № S.1. 2023. P. S378–S390.

 2022: 

  1. Usanov D., Nezhdanov A.V., Zhukov A.O., Markelov A., Trushin V.N., Ferrari M., Mashin A.I. Structure- and excitation-dependent photoluminescence of As–S:Yb3+ films // Optical Materials. № 124. 2022. P. 111971.
  2. Kumar N., Nezhdanov A.V., Garakhin S., Yunin P.A., Polkovnikov V.N., Chkhalo N., Mashin A.I. Microstructure and phonon behavior in W/Si periodic multilayer structures // Journal Physics D: Applied Physics. V. 55. 2022. P. 175302-175310.
  3. Shengurov V.G., Chalkov V.Yu., Denisov S.A., Trushin V.N., Zaitsev A.V., Nezhdanov A.V., Pavlov D.A., Filatov D.O. Growth Defects in GeSn/Ge/Si(001) Epitaxial Layers Grown by Hot Wire Chemical Vapor Deposition of Ge with Co-evaporaton of Sn // Journal of Crystal Growth. V. 578. 2022. P. 126421.
  4. Kumar N., Pleshkov R.S., Garakhin S.A., Nezhdanov A.V., Yunin P.A., Polkovnikov V.N., Chkhalo N.I. Investigation of microstructure and reflectivity of thermally annealed Mo/Be and W/Be multilayer mirrors // Surfaces and Interfaces. V. 28. 2022. P. 101656.
  5. Kumar N., Antisheva G.D., Nezhdanov A.V., Drozdov M.N., Pleshkov R.S., Yunin P.A., Polkovnikov V.N., Chkhalo N.I. Raman scattering studies of the ambient atmospheric thermal stability of Be in periodic Be/Mo and Be/W multilayer mirrors // Journal of Physics D: Applied Physics. V. 55. 2022. P. 245301.
  6. Mariafrancesca Baratta, Teresa Fina Mastropietro, Rosaria Bruno, Antonio Tursi, Cristina Negro, Jesús Ferrando-Soria, Mashin A.I., Nezhdanov A.V., Fiore P. Nicoletta, Giovanni De Filpo, Emilio Pardo, Donatella Armentano Multivariate Metal−Organic Framework/Single-Walled Carbon Nanotube Buckypaper for Selective Lead Decontamination // ACS Applied Nano Materials. V. 101. № 1. 2022. P. 111-222.
  7. Korolev D.S., Matyunina K.S., Nikolyskaya A.A., Kryukov R.N., Nezhdanov A.V., Belov A.I., Mikhailov A.N., Sushkov A.A., Pavlov D.A., Yunin P.A., Drozdov M.N., Tetelbaum D.I. Ion-Beam Synthesis of Gallium Oxide Nanocrystals in a SiO2/Si Dielec-tric Matrix // Nanomaterials. V. 12. № 11. 2022. P. 1840(1-9).
  8. Tursi A., Baratta M., De Filpo G., Nezhdanov A.V., Mashin A.I., Nicoletta F. The morphology and the electro-optical properties of PDLCs cured in the presence of electric fields // Liquid Crystals. V. 49. 2022. P. 1663-1675.
  9. Buzynin Yu.N., Shengurov V.G., Denisov S.A., Yunin P.A., Chalkov V.Yu., Drozdov M.N., Korolyov S.A., Nezhdanov A.V. High Hole Mobility of Polycrystalline GeSn Layers Grown by Hot-Wire Chemical Vapor Deposition on Diamond Substrates // Physica Status Solidi - Rapid Research Letetrs. V. 16. 2022. P. 2100421.
  10. Nezhdanov A.V., Borik M., Kulebyakin A., Kyashkin V., Larina N., Lomonova E., Milovich F., Myzina V., Ryabochkina P., Tabachkova N., Chernov E. Structure and Spectral Luminescence Properties of (ZrO2)0.909(Y2O3)0.09(Eu2O3)0.001 Ceramics Synthesized by Uniaxial Compaction and Slip Casting // Materials. V. 21. № 15. 2022. P. 7722.
  11. Baratta M., Tursi A., Curcio M., Cirillo G., Nezhdanov A.V., Mashin A.I., Nicoletta F.P., De Filpo G. Removal of Non‐Steroidal Anti‐Inflammatory Drugs from Drinking Water Sources by GO‐SWCNT Buckypapers // Molecules. V. 27. 2022. P. 7674.

 

2021: 

  1. Kumar N., Pleshkov R.S., Nezhdanov A.V., Polkovnikov V.N., Yunin P.A., Chkhalo N.I., Mashin A.I. Microstructural Transformation of Nanoscale Be Layers in the Mo/Be and Be/Mo Periodic Multilayer Mirrors Investigated by Raman Spectroscopy // Journal of Physical Chemistry C. V. 125. № 4. 2021. P. 2729-2738. 
  2. Gavrishchuk E.M., Savin D., Tomilova T., Ikonnikov M., Kurashkin S., Mashin A.I., Nezhdanov A.V., Usanov D.A. Spray pyrolysis deposited Cr and In doped CdS films for laser application // Optical Materials. V. 117. 2021. P. 111153
  3. Kumar N., Nezhdanov A.V., Garakhin S.A., Smertin R.M., Yunin P.A., Polkovnikov V.N., Chkhalo N.I., Mashin A.I. Investigation of transverse optical phonon of thin Si films embedded in periodic Mo/Si and W/Si multilayer mirrors // Surfaces and Interfaces. V. 25. 2021. P. 101270
  4. Tetelybaum D.I., Nikolyskaya A.A., Korolev D.S., Mullagaliev T.D., Belov A.I., Trushin V.N., Dudin Yu.A., Nezhdanov A.V., Mashin A.I., Mikhailov A.N., Plechnikov A., Shcheglov M., Nikolaev V., Gogova D. Ion-beam modification of metastable gallium oxide polymorphs // Materials Letters. V. 302. 2021. P. 130346
  5. Nezhdanov A.V., Kumar N., Kozakov A.T., Garakhin S.A., Polkovnikov V.N., Chkhalo N.I., Mashin A.I., Nikolskii A.V. Phonon, plasmon and electronic properties of surfaces and interfaces of periodic W/Si and Si/W multilayers // Physical Chemistry Chemical Physics. V. 23. 2021. P. 15076.
  6. Kumar N., Pleshkov R.S., Nezhdanov A.V., Yunin P.A., Polkovnikov V.N., Chkhalo N.I., Mashin A.I. Phase analysis of tungsten and phonon behavior of beryllium layers in W/Be periodic multilayers // Physical Chemistry Chemical Physics. V. 23. 2021. P. 23303.
  7. Vodopyyanov A.V., Preobrazhenskii E., Nezhdanov A.V., Zorina M., Mashin A.I., Yakimova R., Gogova D. A new plasma-based approach to hydrogen intercalation of graphene // Superlattices and Microstructures. V. 160. 2021. P. 107066.
  8. Кузнецов Ю.М., Дорохин М.В., Нежданов А.В., Здоровейщев Д.А., Лесников В.П., Машин А.И. Способ формирования пленок фазы β-FeSi2 методом импульсного лазерного осаждения в вакууме // Физика и техника полупроводников. Т. 55. № 9. 2021. С. 773-778.
  9. Mariafrancesca Baratta, Giovanni De Filpo, Antonio Tursi, Mashin A.I., Fiore P. Nicoletta Polymer Dispersed Liquid Crystals with elongated droplets as novel pressure sensors // Liquid Crystals. V. 48. 2021. P. 1-9.

2020:

 

  1. Ag/PVP/PAN nanocomposites with triangular nanoprisms of silver synthesized by UV-induced polymerization: Morphology manipulation and optical properties tuning / M. Kudryashov, A. Logunov, D. Gogova, A. Mashin, G. De Filpo // Optical Materials. 2020. Vol. 101, P. 109746. https://doi.org/10.1016/j.optmat.2020.109746
  2. Сресели О.М., Берт Н.А., Неведомский В. Н., Лихачев Л. И., Яссиевич И. Н., Ершов А.В., Нежданов А.В., Машин А.И., Андреев Б.А., Яблонский А. Н. Квантовые точки «ядро-оболочка» Ge/Si в матрице оксида алюминия: влияние температуры отжига на оптические свойства // Semiconductors. Т. 54. № 2. 2020. С. 129–137.
  3. Giovanni De Filpo, Elvira Pantuso, Mariafrancesca Baratta, Fiore Pasquale Nicoletta, Mashin A.I. WO3/Buckypaper Membranes for Advanced Oxidation Processes // Membranes. V. 157. № 10. 2020. P. 1-16. 
  4. Nezhdanov A.V., Mashin A.I., Usanov D.A., Kudryashov M.A., Minkov D., Angelov G., Nesterov R. Optical Characterization of AsxTe100−x Films Grown by Plasma Deposition Based on the Advanced Optimizing Envelope Method // Materials. V. 13. № 13.1. 2020. P. 1-18. 
  5. Nezhdanov A.V., Mashin A.I., Kudryashov M.A., Usanov D.A., Kumar N., Smertin R.M., Polkovnikov V.N., Yunin P.A., Garakhin S.A., Chkhalo N.I. Phase-microstructure of Mo/Si nanoscale multilayer and intermetallic compound formation in interfaces // Intermetallics. V. 125. 2020. P. 106872.  
  6. Nezhdanov A.V., , Mashin A.I. Quantum Confinement Effect in a Nanoscale Mo/Si Multilayer Structure // Journal of Physical Chemistry C. V. 124. № 32. 2020. P. 17795-17805.  
  7. Giovanni De Filpo, Mariafrancesca Baratta, Giuseppina De Luca, Elvira Pantuso, Mashin A.I., Fiore P. Nicoletta Order parameter and electro-optical properties in polymer-dispersed liquid crystals // Liquid Crystals. 2020. P. 1-10. 
  8. Nezhdanov A.V., Mashin A.I., N. Kumar, A. T. Kozakov, R. M. Smertin, V. N. Polkovnikov, N. I. Chkhalo, A. N. Nikolskii, A. A. Scrjabin, S. Y. Zuev Quantum Confinement Effect in a Nanoscale Mo/Si Multilayer Structure // Journal of Physical Chemistry C. V. 124. 2020. P. 17795-17805.


2019:

  1. Impact of composition and ex-situ laser irradiation on the structure and optical properties of As-S-based films synthesized by PECVD / A. Nezhdanov, D. Usanov, M. Kudryashov, A. Markelov, V. Trushin, G. De Filpo, A. Mashin // Optical Materials. 2019. Vol. 96, P. 109292. https://doi.org/10.1016/j.optmat.2019.109292
  2. Design of composition, structure and optical properties of AsxSe100-x (15<x<96)films by plasma-enhanced chemical vapor deposition / A. Nezhdanov, D. Usanov, M. Kudryashov, A. Markelov, V. Trushin, G. De Filpo, A. Mashin // Optical Materials. 2019. Vol.94, P. 166171. https://doi.org/10.1016/j.optmat.2019.05.027
  3. Some insights into the mechanism of photoluminescence of As-S-based films synthesized by PECVD / D. Usanov, A. Nezhdanov, M. Kudryashov, I. Krivenkov, A. Markelov, V. Trushin, L. Mochalov, D. Gogova, A. Mashin // Journal of Non-Crystalline Solids. 2019. Vol. 513. P. 120–124. https://doi.org/10.1016/j.jnoncrysol.2019.03.015
  4. A novel plasma-based method for synthesis of As-Se-Te films: Impact of plasma parameters on the structure, composition, and optical properties / M. Kudryashov, L. Mochalov, A. Nezdanov, R. Kornev, A. Logunov, D. Usanova, A. Mashin, G. De Filpo, D. Gogova // Superlattices and Microstructures. 2019. Vol. 128. P. 334–341. https://doi.org/10.1016/j.spmi.2019.01.035
  5. Polymer Membranes Dispersed Liquid Crystal (PMDLC): a new electro-optical device / G. De Filpo, K. Armentano, E. Pantuso, A.I. Mashin, G. Chidichimo, F.P. Nicoletta // Liquid Crystals. 2019. Vol. 46, P. 986993. https://doi.org/10.1080/02678292.2019.1566506
2018:
  1. A novel method for synthesis of arsenic sulfide films employing conversion of arsenic monosulfide in a plasma discharge / L. Mochalov, A. Logunov, S. Zelentsov, M. Kudryashov, A. Nezhdanov, D. Gogova, A. Mashin // Superlattices and Microstructures. 2018. Vol. 120. P. 264–271. https://doi.org/10.1016/j.spmi.2018.05.051
  2. Purification of tellurium through thermal decomposition of plasma prepared tellurium hydride / L. Mochalov, A. Logunov, A. Vorotyntsev, V. Vorotyntsev, A. Mashin // Separation and Purification Technology. 2018. Vol. 204. P. 276–280. https://doi.org/10.1016/j.seppur.2018.05.009
  3. Behavior of Carbon-Containing Impurities in the Process of Plasma-Chemical Distillation of Sulfur / L. Mochalov, R. Kornev, A. Logunov, M. Kudryashov, A. Mashin, A. Vorotyntsev, V. Vorotyntsev // Plasma Chem. Plasma Process. 2018. Vol. 38. P. 587–598. https://doi.org/10.1007/s11090-018-9879-1
  4. Optical emission of two-dimensional arsenic sulfide prepared by plasma / L. Mochalov, A. Nezhdanov, A. Logunov, M. Kudryashov, I. Krivenkov, A. Vorotyntsev, D. Gogova, A. Mashin // Superlattices and Microstructures. 2018. Vol. 114. P. 305–313. https://doi.org/10.1016/j.spmi.2017.12.052
  5. Infrared and Raman spectroscopy study of As–S chalcogenide films prepared by plasma-enhanced chemical vapor deposition / L. Mochalov, D. Dorosz, M. Kudryashov, A. Nezhdanov, D. Usanov, D. Gogova, S. Zelentsov, A. Boryakov, A. Mashin, // Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy. 2018. Vol. 193. P. 258–263. https://doi.org/10.1016/j.saa.2017.12.034
  6. Investigation of the composition-structure-property relationship of AsxTe100−x films prepared by plasma deposition / L. Mochalov, D. Dorosz, A. Nezhdanov, M. Kudryashov, S. Zelentsov, D. Usanov, A. Logunov, A. Mashin, D. Gogova // Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy. 2018. Vol. 191. P. 211–216. https://doi.org/10.1016/j.saa.2017.10.038
  7. A new reverse mode light shutter from silica-dispersed liquid crystals / G. De Filpo, P. Formoso, A.I. Mashin, A. Nezhdanov, L. Mochalov, F.P. Nicoletta // Liquid Crystals. 2018. Vol. 45. P. 721–727. https://doi.org/10.1080/02678292.2017.1376122
  8. Chemical vapor deposition of photocatalyst nanoparticles on PVDF membranes for advanced oxidation processes / G. De Filpo, E. Pantuso, K. Armentano, P. Formoso, G. Di Profio, T. Poerio, E. Fontananova, C. Meringolo, A.I. Mashin, F.P. Nicoletta // Membranes. 2018. Vol. 8, P. 35. https://doi.org/10.3390/membranes8030035
  9. Структурная модификация фемтосекундным лазерным излучением пленок халькогенидного стекла As50S50, полученных методом плазмохимического осаждения из газовой фазы / А.В. Ромашкин, А.А. Мурзанев, А.М. Киселев, А.И. Корытин, М.А. Кудряшов, А.В. Нежданов, Л.А. Мочалов, А.И. Машин, А.Н. Степанов // Оптика и спектроскопия. 2018. Т. 124. Вып. 5. С. 706–712. http://dx.doi.org/10.21883/OS.2018.05.45957.314-17
2017:
  1. Structural and optical properties of arsenic sulfide films synthesized by a novel PECVD-based approach / L. Mochalov, M. Kudryashov, A. Logunov, S. Zelentsov, A. Nezhdanov, A. Mashin, D. Gogova, G. Chidichimo, G. De Filpo // Superlattices and Microstructures. 2017. Vol. 111. P. 1104–1112. https://doi.org/10.1016/j.spmi.2017.08.007
  2. A new method for synthesis of As-Te chalcogenide films / L. Mochalov, A. Nezhdanov, D. Usanov, A. Markelov, V. Trushin, G. Chidichimo, G. De Filpo, D. Gogova, A. Mashin // Superlattices and Microstructures. 2017. Vol. 111. P. 173–180. https://doi.org/10.1016/j.spmi.2017.06.030
  3. Influence of Plasma-Enhanced Chemical Vapor Deposition Parameters on Characteristics of As–Te Chalcogenide Films / L. Mochalov, A. Nezhdanov, M. Kudryashov, A. Logunov, A. Strikovskiy, M. Gushchin, G. Chidichimo, G. De Filpo, A. Mashin // Plasma Chem. Plasma Process. 2017. Vol. 37. P. 1417–1429. https://doi.org/10.1007/s11090-017-9830-x
  4. Synthesis and properties of AsxTe100−x films prepared by plasma deposition via elemental As and Te / L. Mochalov, A.Nezhdanov, A. Strikovskiy, M. Gushin, G. Chidichimo, G. De Filpo, A. Mashin // Opt. Quant. Electron. 2017. Vol. 49:274. https://doi.org/10.1007/s11082-017-1117-1
  5. Reduced OFF-axis haze in polymer-dispersed liquid crystals / G. De Filpo, A.I. Mashin, A. Beneduci, G. Chidichimo // Liquid Crystals. 2017. Vol. 44. P. 1477–1483. https://doi.org/10.1080/02678292.2017.1306888
  6. Preparation and characterisation of bifunctional reverse-mode polymer-dispersed liquid crystals / G. De Filpo, P. Formoso, S. Manfredi, A.I. Mashin, F.P. Nicoletta // Liquid Crystals. 2017. Vol. 44. P. 1607–1616. https://doi.org/10.1080/02678292.2017.1342002
  7. Characterization of the cleaved edge cross section of the heterostructures with GaMnAs layer by the confocal micro-Raman spectroscopy / A.V. Kudrin, S.M. Plankina, O.V. Vikhrova, A.V. Nezhdanov, A.I. Mashin, Yu.N. Drozdov, A.V. Shvetsov // Micron. 2017. Vol. 93. P. 38–42. https://doi.org/10.1016/j.micron.2016.11.007
  8. Fabrication of Metal Nanoparticle Arrays in the ZrO2(Y), HfO2(Y), and GeOx Films by Magnetron Sputtering / O. Gorshkov, I. Antonov, D. Filatov, M. Shenina, A. Kasatkin, A. Bobrov, M. Koryazhkina, I. Korotaeva, M. Kudryashov // Advances in Materials Science and Engineering. 2017. Vol. 2017. P. 1759469. https://doi.org/10.1155/2017/1759469
  9. Влияние температуры осаждения и отжига на люминесценцию германиевых нанокристаллов, сформированных в пленках GeOx и многослойных структурах Ge/SiO2 / Д.А. Грачев, А.В. Ершов, И.А. Карабанова, А.В. Пирогов, А.В. Нежданов, А.И. Машин, Д.А. Павлов // ФТТ. 2017. Т. 59. № 5. С. 965–971. http://dx.doi.org/10.21883/FTT.2017.05.44388.091
  10. Формирование нанокристаллов кремния в многослойных нанопериодических структурах a-SiOx/диэлектрик по результатам синхротронных исследований / С.Ю. Турищев, В.А. Терехов, Д.А. Коюда, А.В. Ершов, А.И. Машин, Е.В. Паринова, Д.Н. Нестеров, Д.А. Грачев, И.А. Карабанова, Э.П. Домашевская // ФТП. 2017. Т. 51. Вып. 3. С. 363–366. http://dx.doi.org/10.21883/FTP.2017.03.44208.8374