Multiscale Modeling of Particle Interactions:学術洋書、ソフトウェア、データベースの専門店 Neutrino WebShop:King, Michael R. (EDT)/ Gee, David J. (EDT)

Multiscale Modeling of Particle Interactions
粒子相互作用のマルチスケール設計

Applications in Biology and Nanotechnology

Author: King, Michael R. (EDT)/ Gee, David J. (EDT)
Publisher: Wiley
Publication Date: Mar, 2010
ISBN: 0470242353 or 9780470242353
HARDCOVER: 372 Pages

出版済み 3-5週間でお届けいたします。
The delivery time takes 3 to 5 weeks

¥ 10,181 (tax included)

Description

Computational biology and nanotechnology have become critical elements in particle interactions, especially in biological sciences, medicine, toxicology, and technology. Multiscale Modeling of Particle Interactions provides vital insight on particle interactions in areas of biological sciences, chemical engineering, medicine, and manufacturing technology. To better examine cell and tissue mechanics, theoretical aspects of multiscale modeling, and new developments in nanotechnology, the text includes real experimental data and images from novel optical microscopy systems. Chemists and biologists as well as clinicians and students will find this a helpful and important reference.

1 Introduction (Michael R. King and David J. Gee).
Part I: Applications in Nanotechnology.

2 Multiscale Modeling of Nanoscale Aggregation Phenomena: Applications in Semiconductor Materials Processing (Talid Sinno).

3 Multiscale Modeling of Rare Events in Self-Assembled Systems (Dmitry I. Kopelevich).

4 Continuum Description of Atomic Sheets (Costas Pozrikidis).

5 Coulombic Dragging and Mechanical Propelling of Molecules in Nanofluidic Systems (Petr Kral and Boyang Wang).

6 Molecular Dynamics Modeling of Nanodroplets and Nanoparticles (Dan Lussier, N.M.P. Kakalis, and Yiannis Ventikos).

7 Modeling the Interactions Between Compliant Microcapsules and Patterned Surfaces (Anna C. Balazs and Alexander Alexeev).

Part II: Applications in Biology.

8 Coarse-grained and Multiscale Simulations of Lipid Bilayers (Harry A. Stern).

9 Stochastic Approach to Biochemical Kinetics (Ian J. Laurenzi).

10 In Silico Modeling of Angiogenesis at Multiple Scales: From Nanoscale to Organ System (Amina A. Qutub, Feilim Mac Gabhann, Emmanouil D. Karagiannis, and Aleksander S. Popel).

11 Large-scale Simulation of Blood Flow in Microvessels (Prosenjit Bagchi).

12 Molecular to Multicellular Deformation During Adhesion of Immune Cells Under Flow (David J. Gee and Michael R. King).