# | Title | Journal | Year | Citations |
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1 | Expressions for the Evaporation and Condensation Coefficients in the Hertz-Knudsen Relation | Chemical Reviews | 2016 | 305 |
2 | Expression for predicting liquid evaporation flux: Statistical rate theory approach | Physical Review E | 1999 | 167 |
3 | Interfacial conditions during evaporation or condensation of water | Physical Review E | 2001 | 132 |
4 | Examination of the statistical rate theory expression for liquid evaporation rates | Physical Review E | 1999 | 118 |
5 | Turbulent transition of thermocapillary flow induced by water evaporation | Physical Review E | 2004 | 116 |
6 | Study on the surface tensions of polymer melts using axisymmetric drop shape analysis | Polymer Engineering and Science | 1998 | 86 |
7 | Energy Transport by Thermocapillary Convection during Sessile-Water-Droplet Evaporation | Physical Review Letters | 2010 | 86 |
8 | Temperature programmed desorption: A statistical rate theory approach | Journal of Chemical Physics | 1997 | 81 |
9 | Statistical rate theory description of beam-dosing adsorption kinetics | Journal of Chemical Physics | 1997 | 74 |
10 | Effect of Adsorption on the Surface Tensions of Solid−Fluid Interfaces | Journal of Physical Chemistry B | 2007 | 62 |
11 | Effect of gravity on contact angle: A theoretical investigation | Journal of Chemical Physics | 1998 | 53 |
12 | Temperature discontinuity at the surface of an evaporating droplet | Journal of Applied Physics | 2002 | 53 |
13 | Surface excess properties from energy transport measurements during water evaporation | Physical Review E | 2005 | 53 |
14 | A statistical rate theory study of interface concentration during crystal growth or dissolution | Journal of Chemical Physics | 1998 | 52 |
15 | Investigation of Local Evaporation Flux and Vapor-Phase Pressure at an Evaporative Droplet Interface | Langmuir | 2009 | 47 |
16 | Effect of Contact Line Curvature on Solid-Fluid Surface Tensions Without Line Tension | Physical Review Letters | 2008 | 45 |
17 | Surface-thermal capacity ofD2Ofrom measurements made during steady-state evaporation | Physical Review E | 2005 | 36 |
18 | Pressure Dependence of the Contact Angle | Journal of Physical Chemistry B | 2007 | 33 |
19 | Role of molecular phonons and interfacial-temperature discontinuities in water evaporation | Physical Review E | 2008 | 31 |
20 | Statistical Rate Theory Examination of Ethanol Evaporation | Journal of Physical Chemistry B | 2010 | 30 |
21 | Effect of gravity on contact angle: An experimental investigation | Journal of Chemical Physics | 1998 | 28 |
22 | Absence of Marangoni convection at Marangoni numbers above 27,000 during water evaporation | Physical Review E | 2009 | 27 |
23 | Contact angles and surface properties of nanoporous materials | Journal of Colloid and Interface Science | 2013 | 26 |
24 | Prediction of the wetting condition from the Zeta adsorption isotherm | Physical Chemistry Chemical Physics | 2014 | 24 |
25 | Onset of Marangoni convection for evaporating sessile droplets | Journal of Colloid and Interface Science | 2012 | 22 |
26 | Clusters in the adsorbates of vapours and gases: Zeta isotherm approach | Physical Chemistry Chemical Physics | 2014 | 22 |
27 | Nucleation and growth of condensate in nanoporous materials | Physical Chemistry Chemical Physics | 2015 | 22 |
28 | Characterization of the Pore Structure and Surface Properties of Shale Using the Zeta Adsorption Isotherm Approach | Energy & Fuels | 2015 | 22 |
29 | Adsorption at the solid–liquid interface as the source of contact angle dependence on the curvature of the three-phase line | Advances in Colloid and Interface Science | 2010 | 20 |
30 | Measurement of the Adsorption at Solid−Liquid Interfaces from the Pressure Dependence of Contact Angles | Journal of Physical Chemistry B | 2008 | 19 |
31 | Droplet stability in a finite system: Consideration of the solid–vapor interface | Journal of Applied Physics | 2003 | 18 |
32 | Pore Shape Defines Paths of Metastatic Cell Migration | Nano Letters | 2018 | 17 |
33 | Specific Surface Area, Wetting, and Surface Tension of Materials from N2 Vapor Adsorption Isotherms | Journal of Physical Chemistry C | 2019 | 17 |
34 | Source of Temperature and Pressure Pulsations during Sessile Droplet Evaporation into Multicomponent Atmospheres | Langmuir | 2013 | 15 |
35 | Contact angle hysteresis generated by the residual gravitational field of the Space Shuttle | Journal of Chemical Physics | 2000 | 13 |
36 | From adsorption to condensation: the role of adsorbed molecular clusters | Physical Chemistry Chemical Physics | 2016 | 12 |
37 | Vapour adsorption kinetics: statistical rate theory and zeta adsorption isotherm approach | Physical Chemistry Chemical Physics | 2016 | 11 |
38 | Initiation of wetting, filmwise condensation and condensate drainage from a surface in a gravity field | Physical Chemistry Chemical Physics | 2017 | 9 |
39 | Stability of evaporating water when heated through the vapor and the liquid phases | Physical Review E | 2010 | 8 |
40 | Thermodynamic N2 Vapor Isotherms of Materials: Zeta Adsorption Isotherm Approach | Journal of Physical Chemistry C | 2021 | 8 |
41 | Bubble shapes in rotating two-phase fluid systems: a thermodynamic approach | Journal of Fluid Mechanics | 1996 | 7 |
42 | Area Occupied by a Water Molecule Adsorbed on Silica at 298 K: Zeta Adsorption Isotherm Approach | Journal of Physical Chemistry C | 2020 | 7 |
43 | Onset of Marangoni convection for evaporating liquids with spherical interfaces and finite boundaries | Physical Review E | 2011 | 6 |
44 | Specific Surface Area from Nitrogen Adsorption Data at 77 K Using the Zeta Adsorption Isotherm | Journal of Physical Chemistry C | 2017 | 6 |
45 | Specific Surface Area of Nanopowders from Argon Adsorption at 77 and 87 K: Zeta Adsorption Isotherm Approach | Journal of Physical Chemistry C | 2021 | 5 |
46 | Effects of nonlinear interfacial kinetics and interfacial thermal resistance in planar solidification | Physical Review E | 2012 | 4 |
47 | Blood Protein-Material Interactions That Lead to Cellular Adhesion | ACS Symposium Series | 1987 | 3 |
48 | Initiation of condensation of toluene and octane vapours on a Si surface | RSC Advances | 2020 | 2 |
49 | Comment on “Discussion on a mechanical equilibrium condition of a sessile drop on a smooth solid surface” [J. Chem. Phys. 130, 144106 (2009)] | Journal of Chemical Physics | 2011 | 0 |