M
Mortko Kozhushner
Researcher at Semenov Institute of Chemical Physics
Publications - 64
Citations - 931
Mortko Kozhushner is an academic researcher from Semenov Institute of Chemical Physics. The author has contributed to research in topics: Electron & Electric field. The author has an hindex of 11, co-authored 64 publications receiving 853 citations. Previous affiliations of Mortko Kozhushner include Russian Academy of Sciences & Moscow Institute of Physics and Technology.
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Rectification and stability of a single molecular diode with controlled orientation
Ismael Díez-Pérez,Joshua Hihath,Youn-Gu Lee,Youn-Gu Lee,Luping Yu,Lyudmyla Adamska,Mortko Kozhushner,Ivan Oleynik,Nongjian Tao +8 more
TL;DR: Charge transport through symmetric tetraphenyl and non-symmetric diblock dipyrimidinyldiphenyl molecules covalently bound to two electrodes is studied to study diode behaviour in single molecules.
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Rectification Mechanism in Diblock Oligomer Molecular Diodes
TL;DR: The conceptually new theoretical approach, the Green's function theory of sub-barrier scattering, is able to provide a physically transparent explanation of this rectification effect based on the concept of the bound state spectrum of a tunneling electron and predicts the characteristic features of the I-V spectrum in qualitative agreement with experiment.
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Temperature dependence of cryochemical H-tunneling reactions
TL;DR: In this paper, the temperature dependence of tunneling transition of the atomic particle in solids is studied near absolute zero, and different mechanisms of the temperature depend on medium reorganization, the potential barrier parameters modulation, and the under-barrier friction.
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Effect of Temperature and Nanoparticle Size on Sensor Properties of Nanostructured Tin Dioxide Films
Mortko Kozhushner,Leonid I. Trakhtenberg,Valeria L. Bodneva,Tatyana V. Belisheva,Aaron Landerville,Ivan Oleynik +5 more
TL;DR: In this article, the sensitivity of semiconductor tin dioxide (SnO2) nanostructured thin films with average nanoparticle diameter ≈120 nm as a function of temperature and concentration of analyte hydrogen gas was investigated.
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Inhomogeneous Charge Distribution in Semiconductor Nanoparticles
Mortko Kozhushner,B. V. Lidskii,Ivan Oleynik,V. S. Posvyanskii,Leonid I. Trakhtenberg,Leonid I. Trakhtenberg +5 more
TL;DR: In this paper, the inhomogeneous spatial distribution of charge carriers within semiconductor oxide nanoparticles is investigated by taking into account processes involving the interaction of conduction electrons with oxygen donor vacancies in the bulk and with oxygen adsorbates at the surface.