Zobrazeno 1 - 10
of 69
pro vyhledávání: '"Yu. A. Levin"'
Autor:
Yu. K. Levin
Publikováno v:
Colloid Journal.
Autor:
S. I. Koshoridze, Yu. K. Levin
Publikováno v:
Russian Physics Journal. 65:99-106
Autor:
S. I. Koshoridze, Yu. K. Levin
Publikováno v:
Physical Chemistry Chemical Physics. 24:10622-10625
It is shown that electrostatic pressure arising from the repulsion of ions in the Stern layer around space charge of bulk nanobubbles is the main factor of their stability.
Autor:
Yu. K. Levin, S. I. Koshoridze
Publikováno v:
Nanoscience and Technology: An International Journal. 12:39-44
Autor:
S I, Koshoridze, Yu K, Levin
Publikováno v:
Physical chemistry chemical physics : PCCP. 24(17)
In this article, a new formula for the electrostatic pressure (EP) inside bulk nanobubbles (BNB) is derived. Based on the solution of the Boltzmann-Laplace equation, the value of the EP is calculated and it is shown that under certain conditions, for
Autor:
Yu. K. Levin, S. I. Koshoridze
Publikováno v:
Russian Physics Journal. 63:1277-1281
The paper investigates the formation and stability of the surface nanobubbles with regard to the line tension at the triple phase boundary; the pinning effect, when the bubble stands on the surface and the triple phase boundary does not move; and the
Autor:
Yu. K. Levin, S. I. Koshoridze
Publikováno v:
Technical Physics. 65:846-850
This work studies the formation of a charged equilibrium nanobubble on a smooth hydrophobic solid–water interface. Expressions are given for the change in the Gibbs energy of the system, taking into account the Kelvin capillary equation, the electr
Autor:
Yu. K. Levin, S. I. Koshoridze
Publikováno v:
Russian Physics Journal. 62:1595-1601
The paper presents a thermodynamic analysis of the formation of an equilibrium nanobubble at a smooth, hydrophobic solid/water interface. The analysis utilizes the Kelvin equation and the electrostatic energy of the bubble/water electric double layer
Publikováno v:
Russian Physics Journal. 61:1914-1921
Conditions of stability of charged air nanobubbles in water are considered. Ranges of values of the charge and radius in which coalescence and division predominate are theoretically determined. The stability region is revealed in which the given proc
Autor:
Yu. K. Levin, S. I. Koshoridze
Publikováno v:
Nanoscience and Technology: An International Journal. 10:67-77