35 results on '"Zhou, Shiqi"'
Search Results
2. Novel polarity effect on intermetallic compound thickness changes during electromigration in Cu/Sn-3.0Ag-0.5Cu/Cu solder joints
3. Properties of a planar electric double layer under extreme conditions investigated by classical density functional theory and Monte Carlo simulations
4. Effects of discreteness of surface charges on the effective electrostatic interactions
5. Coupling parameter series expansion for fluid with square-well plus repulsive-square-barrier potential
6. Convergence and low temperature adaptability analysis of the high temperature series expansion of the free energy
7. Study of H2 physical adsorption in single-walled carbon nanotube array
8. Publisher's Note: “Monte Carlo and theoretical calculations of the first four perturbation coefficients in the high temperature series expansion of the free energy for discrete and core-softened potential models” [J. Chem. Phys. 138, 244115 (2013)]
9. Monte Carlo and theoretical calculations of the first four perturbation coefficients in the high temperature series expansion of the free energy for discrete and core-softened potential models
10. Novel anomalies for like-charged attraction between curved surfaces and formulation of a hydrogen bonding style mechanism
11. Liquid theory with high accuracy and broad applicability: Coupling parameter series expansion and non hard sphere perturbation strategy
12. Non-hard sphere thermodynamic perturbation theory
13. Modulation of capillary condensation by trace component
14. A theoretical investigation on the honeycomb potential fluid
15. New free energy density functional and application to core-softened fluid
16. Inquiry into thermodynamic behavior of hard sphere plus repulsive barrier of finite height
17. Comprehensive investigation about the second order term of thermodynamic perturbation expansion
18. A new scheme for perturbation contribution in density functional theory and application to solvation force and critical fluctuations
19. How to make thermodynamic perturbation theory to be suitable for low temperature?
20. Thermodynamics and phase behavior of a triangle-well model and density-dependent variety
21. Local structures of fluid with discrete spherical potential: Theory and grand canonical ensemble Monte Carlo simulation
22. Phase behavior of density-dependent pair potentials
23. Solid phase thermodynamic perturbation theory: Test and application to multiple solid phases
24. Improvement on macroscopic compressibility approximation and beyond
25. How to extend hard sphere density functional approximation to nonuniform nonhard sphere fluids: Applicable to both subcritical and supercritical temperature regions
26. Global and critical test of the perturbation density-functional theory based on extensive simulation of Lennard-Jones fluid near an interface and in confined systems
27. Analysis of the validity of perturbation density functional theory: Based on extensive simulation for simple fluid at supercritical and subcritical temperature under various external potentials
28. Application of Lagrangian theorem-based density-functional approximation free of adjustable parameters to nonhard-sphere fluid
29. A method to incorporate the radial distribution function of bulk fluid into the density functional approximation
30. A mixed order density functional theory for adhesive hard sphere fluid confined between two hard walls
31. A nonperturbative density functional analysis for nonuniform Lennard-Jones fluid
32. Inhomogeneous mixture system: A density functional formalism based on the universality of the free energy density functional
33. A density functional theory based on the universality of the free energy density functional
34. A new density functional approach to nonuniform Lennard-Jones fluids
35. A simple weighted-density-functional method: Test and its application to hard sphere fluid in spherical cavity
Catalog
Books, media, physical & digital resources
Discovery Service for Jio Institute Digital Library
For full access to our library's resources, please sign in.