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| Issue | Title | |
| Vol 16, No 4 (2025) | Ionic conductivity in nanopipettes: experiment and model | Abstract PDF (Eng) similar documents |
| S. Yu. Lukashenko, O. M. Gorbenko, M. L. Felshtyn, I. D. Sapozhnikov, D. A. Kirilenko, S. V. Pichakhchi, M. V. Zhukov, A. O. Golubok | ||
| "... . The simulations also reveal characteristic spatial distributions of ionic flow in the aperture area ..." | ||
| Vol 10, No 6 (2019) | SILD synthesis of the efficient and stable electrocatalyst based on CoO–NiO solid solution toward hydrogen production | Abstract PDF (Eng) similar documents |
| I. A. Kodintsev, K. D. Martinson, A. A. Lobinsky, V. I. Popkov | ||
| "... . Nanocrystals of CoO–NiO solid solution were synthesized by successive ionic layer deposition (SILD). XRD, SEM ..." | ||
| Vol 7, No 1 (2016): Special Issue: Proceedings of the 12th Biennial International Conference “Advanced Carbon Nanostructures” (ACNS’2015) | Electrophysical properties of shungites at low temperatures | Abstract PDF (Eng) similar documents |
| I. A. Moshnikov, V. V. Kovalevski | ||
| "... The temperature dependence of electrical conductivity and the shielding effectiveness of shungites ..." | ||
| Vol 3, No 1 (2012) | Investigations of heat conductivity of nanofluids based on aluminum oxide nanoparticles | Abstract similar documents |
| S. P. Bardakhanov, S. A. Novopashin, M. A. Serebrjakova | ||
| "... The heat conductivity of nanofluids based on aluminum oxide nanoparticles (mean diameter of 13 nm ..." | ||
| Vol 7, No 1 (2016): Special Issue: Proceedings of the 12th Biennial International Conference “Advanced Carbon Nanostructures” (ACNS’2015) | ERP study of graphite oxide thermal reduction: the evolution of paramagnetism and conductivity | Abstract PDF (Eng) similar documents |
| M. V. Gudkov, V. P. Melnikov | ||
| "... The evolution of paramagnetic centers (PMC) and conductivity of graphite oxide (GO) during its ..." | ||
| Vol 7, No 3 (2016) | Negative differential conductivity in Fermi liquid in the presence of magnetic field | Abstract PDF (Eng) similar documents |
| N. N. Konobeeva, M. B. Belonenko | ||
| "... /CFT correspondence. The regions of the negative differential conductivity on the current-voltage ..." | ||
| Vol 16, No 3 (2025) | Investigation of morphological features and thermal stability of regenerated wood cellulose from solutions in [BMIm]Cl | Abstract PDF (Eng) similar documents |
| M. G. Mikhaleva, S. V. Usachev, A. S. Vedenkin, M. I. Ikim, G. G. Politenkova, S. M. Lomakin | ||
| Vol 7, No 6 (2016) | Resistance of composite films based on polystyrene and graphene oxide | Abstract PDF (Eng) similar documents |
| A. R. Khairullin, M. N. Nikolaeva, A. N. Bugrov | ||
| Vol 16, No 1 (2025) | Experimental studies on thermal and physical characteristics of mono and hybrid nanofluids | Abstract PDF (Eng) similar documents |
| S. B. Sheik, D. N. Praveena, K. K. Kupireddi | ||
| "... such as thermal conductivity, viscosity, and density of selected nanofluids. Ethylene glycol is considered ..." | ||
| Vol 5, No 5 (2014) | Concentration dependence of electric conductivity and pH for aqueous solutions of water-soluble light fullerene - C60[=C(COOH)2]3 tris-malonate | Abstract PDF (Eng) similar documents |
| K. N. Semenov, N. A. Charykov, A. S. Kritchenkov, I. A. Cherepkova, O. S. Manyakina, D. P. Tyurin, A. A. Shestopalova, V. A. Keskinov, E. A. Kulenova, K. V. Ivanova, N. M. Ivanova, D. G. Letenko, V. A. Nikitin, E. L. Fokina | ||
| "... Studies of the concentration dependence of electric conductivity and pH for aqueous solutions ..." | ||
| Vol 4, No 1 (2013) | Principle of equivalency of the disorder sources and heat conductivity of solids | Abstract similar documents |
| P. P. Fedorov, P. A. Popov | ||
| "... The correlation between chemical composition and heat conductivity of fluoride materials ..." | ||
| Vol 11, No 5 (2020) | Synthesis Ni-doped CuO nanorods via Successive Ionic Layer Deposition method and their capacitive performance | Abstract PDF (Eng) similar documents |
| A. A. Lobinsky, M. V. Kaneva | ||
| "... of Ni-doped CuO via of Successive Ionic Layer Deposition (SILD) method. The study of Ni-doped CuO ..." | ||
| Vol 10, No 4 (2019) | Layer by layer synthesis of zinc-iron layered hydroxy sulfate for electrocatalytic hydrogen evolution from ethanol in alkali media | Abstract PDF (Eng) similar documents |
| D. S. Dmitriev, V. I. Popkov | ||
| "... ionic layer deposition (SILD) method. The obtained materials were investigated with the methods of SEM ..." | ||
| Vol 10, No 5 (2019) | Successive ionic layer deposition of Co-doped Cu(OH)2 nanorods as electrode material for electrocatalytic reforming of ethanol | Abstract PDF (Eng) similar documents |
| I. A. Kodintsev, K. D. Martinson, A. A. Lobinsky, V. I. Popkov | ||
| Vol 16, No 2 (2025) | Elastic and thermal properties of some ternary β-Ti based alloys | Abstract PDF (Eng) similar documents |
| S. O. Kasparyan, A. E. Ordabaev, A. V. Bakulin, S. E. Kulkova | ||
| "... , acoustic Gruneisen parameter and thermal conductivity in titanium alloy series is discussed. It is shown ..." | ||
| Vol 14, No 2 (2023) | Modeling the rarefied gas thermal conductivity in nanochannels | Abstract PDF (Eng) similar documents |
| V. Ya. Rudyak, E. V. Lezhnev | ||
| "... In the paper, the thermal conductivity of rarefied gases in nanochannels and in bulk was studied ..." | ||
| Vol 15, No 2 (2024) | Numerical model of temperature-dependent thermal conductivity in M1−x Rx F2+x heterovalent solid solution nanocomposites where M stands for alkaline-earth metals and R for rare-earth metals | Abstract PDF (Eng) similar documents |
| P. A. Popov, A. V. Shchelokov, P. P. Fedorov | ||
| "... We propose a mathematical model to fit the temperature-dependent thermal conductivity of M1−xRxF2 ..." | ||
| Vol 7, No 4 (2016) | Dielectric studies of nanocrystalline calcium tungstate | Abstract PDF (Eng) similar documents |
| N. Aloysius, M. S. Rintu, E. M. Muhammed, T. Varghese | ||
| "... dependence of the dielectric constant and ac electrical conductivity of the nanomaterial were investigated ..." | ||
| Vol 4, No 4 (2013): Special Issue. INTERNATIONAL CONFERENCE "MATHEMATICAL CHALLENGE OF QUANTUM TRANSPORT IN NANOSYSTEMS - 2013. PIERRE DUCLOS WORKSHOP" | The conuctivity low energy asymptotics for monolayer graphene | Abstract PDF (Eng) similar documents |
| N. E. Firsova | ||
| "... phases, transport cross section, the transport relaxation time and the conductivity for small values ..." | ||
| Vol 4, No 3 (2013) | Heat transport in Marangoni layer with nanoparticles | Abstract PDF (Eng) similar documents |
| V. A. Batischev, V. V. Zaikin, E. V. Horoshunova | ||
| "... conductivity. The study was conducted on the basis of a single-phase model derived from the Navier-Stokes ..." | ||
| Vol 4, No 4 (2013): Special Issue. INTERNATIONAL CONFERENCE "MATHEMATICAL CHALLENGE OF QUANTUM TRANSPORT IN NANOSYSTEMS - 2013. PIERRE DUCLOS WORKSHOP" | Tunneling current in carbon nanotubes with deep impurities | Abstract PDF (Eng) similar documents |
| N. N. Konobeeva, M. B. Belonenko | ||
| "... conductivity was observed. ..." | ||
| Vol 9, No 5 (2018) | Flintstone as a nanocomposite material for photonics | Abstract PDF (Eng) similar documents |
| P. P. Fedorov, V. A. Maslov, V. V. Voronov, E. V. Chernova, O. S. Kudryavtsev, V. G. Ralchenko, I. I. Vlasov, A. S. Chislov, M. N. Mayakova, E. G. Yarotskaya, R. V. Gaynutdinov, P. A. Popov, A. I. Zentsova | ||
| "... conductivity, by various physical methods (X-ray diffraction, atomic force microscopy, optical microscopy, etc ..." | ||
| Vol 8, No 2 (2017) | Correlation between structure and resistance of composites based on polystyrene and multilayered graphene oxide | Abstract PDF (Eng) similar documents |
| M. N. Nikolaeva, T. D. Anan’eva, A. N. Bugrov, A. T. Dideikin, E. M. Ivankova | ||
| "... The correlation between the structure, resistance and UV-irradiation impact on conductivity ..." | ||
| Vol 14, No 4 (2023) | The Space Charge Model. A new analytical approximation solution of Poisson– Boltzmann equation: the extended homogeneous approximation | Abstract PDF (Eng) similar documents |
| J. Dweik, H. Farhat, J. Younis | ||
| "... . The electrical conductivity is calculated by numerical and approximate analytical methods in order to explain ..." | ||
| Vol 14, No 6 (2023) | Surface topology, electrophysical properties and formation mechanism of tin(ii) sulfide thin films | Abstract PDF (Eng) similar documents |
| N. S. Kozhevnikova, L. N. Maskaeva, A. N. Enyashin, A. P. Tyutyunnik, O. A. Lipina, I. O. Selyanin, V. F. Markov | ||
| "... , regardless of the duration of synthesis, reveal p-type conductivity due to Sn vacancies. Atomic force ..." | ||
| Vol 16, No 1 (2025) | Application of the numerical model of temperature-dependent thermal conductivity in Ca1-xYxF2+x heterovalent solid solution nanocomposites | Abstract PDF (Eng) similar documents |
| P. A. Popov, A. V. Shchelokov, V. A. Konyushkin, A. N. Nakladov, P. P. Fedorov | ||
| "... crystals were grown using the Bridgman method. The thermal conductivity of single crystals was measured ..." | ||
| Vol 15, No 1 (2024) | Equilibrium of intrinsic and impurity point defects in Ca-doped Sm2Zr2O7 | Abstract PDF (Eng) similar documents |
| V. A. Vorotnikov, S. A. Belyakov, A. V. Ivanov, Yu. V. Novikova, A. Yu. Stroeva, V. V. Grebenev, D. N. Khmelenin, O. V. Emelyanova, M. S. Plekhanov, A. V. Kuzmin | ||
| "... maintains low activation energy of the parent and has good ionic conductivity (10−3 S·cm−1 at 600 ◦C) which ..." | ||
| Vol 15, No 6 (2024) | Effect of synthesis method on the structural, conductive and sensor properties of NiO–In2O3 nanocomposites | Abstract PDF (Eng) similar documents |
| M. I. Ikim, V. F. Gromov, G. N. Gerasimov, V. G. Bekeshev, L. I. Trakhtenberg | ||
| "... content. The conductivity of impregnated composites is an order of magnitude lower than ..." | ||
| Vol 12, No 6 (2021) | The influence of condition of the monazite structured La0.9Y0.1PO4 nanocrystals sintering on thermal and mechanical properties of the material | Abstract PDF (Eng) similar documents |
| M. O. Enikeeva, O. V. Proskurina, E. S. Motaylo, D. P. Danilovich, V. V. Gusarov | ||
| "... ) = 4±0.5 GPa, thermal conductivity λ(25 ◦C) = 0.4 W·m−1·K−1, and can be used as thermal insulation ..." | ||
| Vol 9, No 4 (2018) | Heat-treated nano-structured shungite rocks and electrophysical properties associated | Abstract PDF (Eng) similar documents |
| S. V. Kovalevskii, I. A. Moshnikov, V. V. Kovalevski | ||
| "... for shielding effectiveness (SE) and the electrical conductivity (σ) of untreated and heat-treated shungite ..." | ||
| Vol 3, No 2 (2012) | Structure and electrets properties of polypropylene films with amorphous dioxide of silicon | Abstract similar documents |
| A. V. Smirnov, B. A. Fedorov, D. E. Temnov, E. E. Fomicheva | ||
| "... samples is caused by the expense of their volume conductivity. To explain growth of conductivity ..." | ||
| Vol 8, No 3 (2017) | The microstructure of the surface of thin PbS films deposited from the coordination compounds diacetatodi(thiourea)lead | Abstract PDF (Eng) similar documents |
| V. N. Semenov, A. N. Nituta, A. N. Lukin, N. M. Ovechkina, L. N. Nikitin | ||
| "... . A change in the type of conductivity with increasing temperature was observed. ..." | ||
| Vol 4, No 1 (2013) | Thermal properties of anodic alumina membranes | Abstract similar documents |
| I. V. Roslyakov, K. S. Napolskii, P. V. Evdokimov, F. S. Napolskiy, A. V. Dunaev, A. A. Eliseev, A. V. Lukashin, Yu. D. Tretyakov | ||
| "... aluminum oxide, e.g. thermal expansion, heat capacity and thermal conductivity, are determined ..." | ||
| Vol 8, No 1 (2017) | Metal-insulator (fermion-boson)-crossover origin of pseudogap phase of cuprates I: anomalous heat conductivity, insulator resistivity boundary, nonlinear entropy | Abstract PDF (Eng) similar documents |
| B. Abdullaev, C.-H. Park, K.-S. Park, I.-J. Kang | ||
| "... , is conducting. This MIC, revealed in such phenomena as heat conductivity downturn, anomalous Lorentz ratio ..." | ||
| Vol 6, No 6 (2015) | Intra pseudogap- and superconductivy-pair spin and charge fluctuations and underdome metal-insulator (fermion-boson)-crossover phenomena as keystones of cuprate physics | Abstract PDF (Eng) similar documents |
| B. Abdullaev, D. B. Abdullaev, C. -H. Park, M. M. Musakhanov | ||
| "... in such phenomena as heat conductivity downturn, anomalous Lorentz ratio, nonlinear entropy, insulating ground state ..." | ||
| Vol 11, No 2 (2020) | Synthesis and characterisation of CZTSe bulk materials for thermoelectric applications | Abstract PDF (Eng) similar documents |
| Yogeshchandra Sharma | ||
| 1 - 36 of 36 Items | ||
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