Cited Article: Hummer, G. Water conduction through the hydrophobic channel of a carbon nanotube
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Title:
Effects of carbon nanoparticles on lipid membranes: a molecular simulation perspective
Authors:
Monticelli, L; Salonen, E; Ke, PC; Vattulainen, I
Author Full Names:
Monticelli, Luca; Salonen, Emppu; Ke, Pu Chun; Vattulainen, Ilpo
Source:
SOFT MATTER 5 (22): 4433-4445 2009
Language:
English
Document Type:
Review
KeyWords Plus:
COARSE-GRAINED MODEL; GATED POTASSIUM CHANNEL; DYNAMICS SIMULATIONS; FORCE-FIELD; COMPUTER-SIMULATION; C-60 FULLERENE; CELL-MEMBRANES; BIOLOGICAL-MEMBRANES; ULTRAFINE PARTICLES; WATER SUSPENSION
Abstract:
We review recent simulation studies of carbon nanoparticles interacting with lipid membranes. We first consider the state-of-the-art methodology associated with atomistic as well as coarse-grained models of carbon nanoparticles and lipid systems, and then discuss recent simulation studies of fullerenes, carbon nanotubes and other carbon-based nanoparticles interacting with biological lipid interfaces. We close this article with a brief consideration of the future challenges guided by experiments.
Reprint Address:
Vattulainen, I, Helsinki Univ Technol, Dept Appl Phys, POB 1100, FI-02015 Helsinki, Finland.
Research Institution addresses:
[Monticelli, Luca; Salonen, Emppu; Vattulainen, Ilpo] Helsinki Univ Technol, Dept Appl Phys, FI-02015 Helsinki, Finland; [Monticelli, Luca; Vattulainen, Ilpo] Tampere Univ Technol, Dept Phys, FI-33101 Tampere, Finland; [Monticelli, Luca] DSIMB, INSERM, UMR S665, F-75739 Paris, France; [Ke, Pu Chun] Clemson Univ, Dept Phys & Astron, Clemson, SC 29634 USA; [Ke, Pu Chun] Clemson Univ, Ctr Opt Mat Sci & Engn Technol, Clemson, SC USA; [Vattulainen, Ilpo] Univ So Denmark, MEMPHYS, Ctr Biomembrane Phys, Odense, Denmark
E-mail Address:
luca.monticelli@inserm.fr
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Cited Reference Count:
140
Times Cited:
0
Publisher:
ROYAL SOC CHEMISTRY; THOMAS GRAHAM HOUSE, SCIENCE PARK, MILTON RD, CAMBRIDGE CB4 0WF, CAMBS, ENGLAND
Subject Category:
Chemistry, Physical; Materials Science, Multidisciplinary; Physics, Multidisciplinary; Polymer Science
ISSN:
1744-683X
DOI:
10.1039/b912310e
IDS Number:
519DH
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Title:
Dequantization, Statistical Mechanics and Econophysics
Authors:
Maslov, V
Author Full Names:
Maslov, Victor
Source:
TROPICAL AND IDEMPOTENT MATHEMATICS 495: 239-279 2009
Language:
English
Document Type:
Proceedings Paper
Author Keywords:
Dequantization; econophysics; financial crisis; statistical mechanics; Maxwell distribution; Gibbs paradox; clusterization; Lennard-Jones potential
KeyWords Plus:
LINEAR INEQUALITY; QUASI-PARTICLES; LAW; SUPERFLUIDITY; QUANTIZATION; INFLATION; AVERAGES; NANOTUBE; CRISIS
Abstract:
In this paper, using a rigorous statement and rigorous proof of the Maxwell distribution as an example, we establish estimates of the distribution depending on the parameter N, the number of particles. Further, we consider the problem of the occurrence of dimers in a classical gas as an analog of the Bose condensation and establish estimates of the lower level of the analog of the Bose condensation. Using dequantization principles, we find the relationship of this level to "capture" theory in the scattering problem corresponding to an interaction of the form of the Lennard-Jones potential. This also solves the problem of the Gibbs paradox.
We derive the equation of state for a non-ideal gas as a result of pair interactions of particles in Lennard-Jones models and, for classical gases, discuss the lambda transition to the condensed state (the state in which V-sp does not vary with increasing pressure; for heat capacity, this is the lambda point).
We use econophysics to explain the nature of a financial crisis.
Reprint Address:
Maslov, V, Moscow MV Lomonosov State Univ, Fac Phys, MSU, 1 Bldg 2 GSP 2, Moscow 119992, Russia.
Research Institution addresses:
Moscow MV Lomonosov State Univ, Fac Phys, MSU, Moscow 119992, Russia
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Cited Reference Count:
47
Times Cited:
0
Publisher:
AMER MATHEMATICAL SOC; P.O. BOX 6248, PROVIDENCE, RI 02940 USA
ISSN:
0271-4132
IDS Number:
BLZ81
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