Nikolai Priezjev
- Chief Research Fellow:International Laboratory for Supercomputer Atomistic Modelling and Multi-scale Analysis
- Nikolai Priezjev has been at HSE since 2017.
Publications25
- Article Priezjev N., Makeev M. Structural relaxation of porous glasses due to internal stresses and deformation under tensile loading at constant pressure // Computational Materials Science. 2019. Vol. 156. P. 376-384. doi
- Article Priezjev N., Makeev M. Structural transformations during periodic deformation of low-porosity amorphous materials // Modelling and Simulation in Materials Science and Engineering. 2019. Vol. 27. P. 025004-025004. doi
- Article Priezjev N. The effect of cryogenic thermal cycling on aging, rejuvenation, and mechanical properties of metallic glasses // Journal of Non-Crystalline Solids. 2019. Vol. 503-504. P. 131-138. doi
- Article Liu Q., Priezjev N. The influence of complex thermal treatment on mechanical properties of amorphous materials // Computational Materials Science. 2019. Vol. 161. P. 93-98. doi
- Article Priezjev N., Makeev M. The influence of periodic shear on structural relaxation and pore redistribution in binary glasses // Journal of Non-Crystalline Solids. 2019. Vol. 506. P. 14-20. doi
- Article Hu H., Wang D., Ren F., Bao L., Priezjev N., Wen W. A comparative analysis of the effective and local slip lengths for liquid flows over a trapped nanobubble // International Journal of Multiphase Flow. 2018. Vol. 104. P. 166-173. doi
- Article Bao L., Huang Z., Priezjev N., Chen S., Luo K., Hu H. A significant reduction of ice adhesion on nanostructured surfaces that consist of an array of single-walled carbon nanotubes: A molecular dynamics simulation study // Applied Surface Science. 2018. Vol. 437. P. 202-208. doi
- Article Makeev M., Priezjev N. Distributions of pore sizes and atomic densities in binary mixtures revealed by molecular dynamics simulations // Physical Review E - Statistical, Nonlinear, and Soft Matter Physics. 2018. Vol. 97. P. 023002-1-023002-8. doi
- Article Priezjev N. Molecular dynamics simulations of the mechanical annealing process in metallic glasses: Effects of strain amplitude and temperature // Journal of Non-Crystalline Solids. 2018. Vol. 479. P. 42-48. doi
- Article Priezjev N. Slow relaxation dynamics in binary glasses during stress-controlled, tension-compression cyclic loading // Computational Materials Science. 2018. Vol. 153. P. 235-240. doi
- Article Priezjev N., Makeev M. Strain-induced deformation of the porous structure in binary glasses under tensile loading // Computational Materials Science. 2018. Vol. 150. P. 134-143. doi
- Article Priezjev N., Makeev M. Structural transformations and mechanical properties of porous glasses under compressive loading // Journal of Non-Crystalline Solids. 2018. Vol. 500. P. 1-10. doi
- Article Darvishzadeh T., Bhattarai B., Priezjev N. The critical pressure for microfiltration of oil-in-water emulsions using slotted-pore membranes // Journal of Membrane Science. 2018. Vol. 563. P. 610-616. doi
- Article Priezjev N. The yielding transition in periodically sheared binary glasses at finite temperature // Computational Materials Science. 2018. Vol. 150. P. 162-168. doi
- Article Bhattarai B., Priezjev N. Wetting properties of structured interfaces composed of surface-attached spherical nanoparticles // Computational Materials Science. 2018. Vol. 143. P. 497-504. doi
- Article Priezjev N. Collective nonaffine displacements in amorphous materials during large-amplitude oscillatory shear // Physical Review E - Statistical, Nonlinear, and Soft Matter Physics. 2017. Vol. 95. P. 023002-1-023002-7. doi
- Article Bao L., Priezjev N., Hu H., Luo K. Effects of viscous heating and wall-fluid interaction energy on rate-dependent slip behavior of simple fluids // Physical Review E - Statistical, Nonlinear, and Soft Matter Physics. 2017. Vol. 96. P. 033110-1-033110-9. doi
- Article Priezjev N., Makeev M. Evolution of the pore size distribution in sheared binary glasses // Physical Review E - Statistical, Nonlinear, and Soft Matter Physics. 2017. Vol. 96. P. 053004-1-053004-11. doi
- Article Hu H., Bao L., Priezjev N., Luo K. Identifying two regimes of slip of simple fluids over smooth surfaces with weak and strong wall-fluid interaction energies // The Journal of Chemical Physics. 2017. Vol. 146. P. 034701-1-034701-7. doi
- Article Kharazmi A., Priezjev N. Molecular dynamics simulations of the rotational and translational diffusion of a Janus rod-shaped nanoparticle // Journal of Physical Chemistry B. 2017. Vol. 121. P. 7133-7139. doi
- Article Priezjev N. Nonaffine rearrangements of atoms in deformed and quiescent binary glasses // Physical Review E - Statistical, Nonlinear, and Soft Matter Physics. 2016. Vol. 94. P. 023004-1-023004-5. doi
- Article Priezjev N. Reversible plastic events during oscillatory deformation of amorphous solids // Physical Review E - Statistical, Nonlinear, and Soft Matter Physics. 2016. Vol. 93. P. 013001-1-013001-5. doi
- Article Kharazmi A., Priezjev N. Diffusion of a Janus nanoparticle in an explicit solvent: A molecular dynamics simulation study // The Journal of Chemical Physics. 2015. Vol. 142. P. 234503. doi
- Article Priezjev N. Plastic deformation of a model glass induced by a local shear transformation // Physical Review E - Statistical, Nonlinear, and Soft Matter Physics. 2015. Vol. 91. P. 032412. doi
- Article Priezjev N. The effect of a reversible shear transformation on plastic deformation of an amorphous solid // Journal of Physics: Condensed Matter. 2015. Vol. 27. P. 435002. doi
Biography
I obtained my Ph.D. in soft condensed matter physics at Brown University, Providence, RI in May 2002. My dissertation focused on numerical simulations of nematic liquid crystals including the effects of confined geometries, phase transitions and topological defects. The current research in my group involves a broad range of topics; namely, periodically driven glasses, cryogenic thermal treatment of metallic glasses, mechanics of porous glasses, microfiltration of oil-in-water emulsions, diffusion of Janus nanoparticles, slip boundary conditions for liquid flows over atomically smooth and superhydrophobic surfaces, ice adhesion on nanostructured surfaces, and wetting properties of structured interfaces.