Phase Transitions in Small/Nano Systems
Ch. 1, Adv. in Phytonanotechnology, Academic Press, June 2019
An Introduction to Nanoscience & Nanotechnology
Ch. 1, Pages 1-20, Nanoscience and Plant-Soil Systems, Springer Soil Biology Series Vol. 48, 2017
CONFINED FLUIDS: Structure, Properties and Phase Behavior (A Review Paper)
Advancs in Chemical Physics,
Volume 156, Ch. 5, PP.197-294, 2014.
LOCAL PRESSURE OF CONFINED FLUIDS
INSIDE NANOSLIT PORES
(A DENSITY FUNCTIONAL THEORY PREDICTION)
Int'l J. Theor. Phys., Group Theory & Nonlinear Optics,
Vol.17, No.2, pp.101-119, 2013.
Lateral Pressure Tensor of Confined Fluids in Nanoslit Pores
Micro
and Nano Systems, Vol. 3, pp. 311-218, 2011.
Attractive energy contribution to nanoconfined fluids behavior: the
normal pressure
tensor
Microfluidics and Nanofluidics, Volume 10, Number 4, 899-906, DOI:
10.1007/s10404-010-0723-z, 2011.
Behavior of confined fluids in nanoslit pores: the normal pressure
tensor
Microfluidics
and Nanofluidics,
8(1): pp.97-104,January 2010; DOI: 10.1007/s10404-009-0449-y.
BEHAVIOR OF THE CONFINED HARD-SPHERE FLUID WITHIN NANOSLITS: A
FUNDAMENTAL-MEASURE DENSITY-FUNCTIONAL
THEORY STUDY
Int'l
J of
Nanoscience,
7(4-5): pp. 245-253, 2008; DOI: 10.1142/S0219581X08005365.
Volumetric Dependence of Interatomic Distance in Dense Nanosystems:
A Theoretical and Molecular Dynamics Simulation Study
J. Comput'l &
Theor'l Nanoscience, 5(4): 639-646, 2008.
An Analytic Model for Nano Confined Fluids Phase-Transition:
Applications for Confined Fluids in Nanotube and Nanoslit
J.
Comput'l & Theor'l Nanoscience, 3(1):134-141,
2006.
Why Nanosystems and Macroscopic Systems Behave Differently
Int'l J. Nanoscience & Nanotechnology, 1(1): 46-53, 2006.
Some mathematical concepts applicable in nanothermodynamics
Int'l J. Pure & Applied Math. Sci., 2(1), 58-61, 2005.
Statistical Mechanical Modeling and its Application to Nanosystems
Chap. 16, in the Handbook of
Theoretical and Computational Nanotechnology, 2005.
Nonextensivity and Nonintensivity in Nanosystems: A Molecular Dynamics
Simulation
J. Comput'l & Theor'l Nanoscience, 2(1):138-147, 2005.
Principles of Nanotechnology-
Molecular-Based Study of Condensed Matter in Small Systems
Chap.3, World Scientific Pub. Co., 2005.
An application of non-extensive statistical mechanics to
nanosystems
J.
Comput'l & Theor'l Nanoscience, 1(2):227-229(3),
2004.
Interatomic Potential Models for Nanostructures
Encyclopedia of Nanoscience & Nanotechnology, 4,
231-248, 2004.
Measurement, Simulation and Prediction of Intermolecular Interactions
and Structural Characterization of Organic Nanostructures, G. A.
Mansoori, L. Assoufid, T.F. George, G. Zhang in Proceed. of Conference on
Nanodevices and Systems, Nanotech, San Francisco, CA, Feb. 23-27, 2003.
Advances in atomic & molecular nanotechnology.
G.A. Mansoori,
(Invited paper), "Nanotechnology: The emerging cutting-edge technology"
United Nations Tech Monitor (Special Issue), 53-59, Sep-Oct 2002.
Organic Nanostructures and their
Phase Transitions
G.A. Mansoori, Proceedings of the first Conference
on
Nanotechnology - The next industrial revolution, 2, 345-358,
March 2002.
The concentrations of electrolytes in charged cylindrical pores:
The hydrostatic hypernetted chain/mean spherical approximation
J.
Chem. Phys. 104 (10), 8 March 1996
Kinetics of Water Loss from Cells at Subzero Centigrade Temperatures", Cryobiology,
Vol.12,
No.1, pp.34-45, 1975.
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