From artificial surfaces to living cells, Molecular Nano Dynamics, Vol. I and Vol. II explores more than 40 important methods for dynamic observation of the nanoscale. Edited by absolute science greats from Japan, this two-volume set covers all important aspects of this topic: nanoscale spectroscopy and characterization tools, nanostructure dynamics, single living cell dynamics, active surfaces, and single crystals. Destined to be the definitive reference work on nanoscale molecular dynamics and their observation for years to come, this is a must-have reference for chemists, physicists, physical chemists, theoretical chemists, and materials scientists.
Molecular Dynamics Simulation of Nanocomposites using BIOVIA Materials Studio, Lammps and Gromacs presents the three major software packages used for the molecular dynamics simulation of nanocomposites. The book explains, in detail, how to use each of these packages, also providing real-world examples that show when each should be used. The latter two of these are open-source codes which can be used for modeling at no cost. Several case studies how each software package is used to predict various properties of nanocomposites, including metal-matrix, polymer-matrix and ceramic-matrix based nanocomposites. Properties explored include mechanical, thermal, optical and electrical properties. This is the first book that explores methodologies for using Materials Studio, Lammps and Gromacs in the same place. It will be beneficial for students, researchers and scientists working in the field of molecular dynamics simulation. - Gives a detailed explanation of basic commands and modules of Materials Studio, Lammps and Gromacs - Shows how Materials Studio, Lammps and Gromacs predict mechanical, thermal, electrical and optical properties of nanocomposites - Uses case studies to show which software should be used to solve a variety of nanoscale modeling problems
Molecular Sensors and Nanodevices: Principles, Designs and Applications in Biomedical Engineering, Second Edition is designed to be used as a foundational text, aimed at graduates, advanced undergraduates, early-career engineers and clinicians. The book presents the essential principles of molecular sensors, including theories, fabrication techniques and reviews. In addition, important devices and recently, highly-cited research outcomes are also cited. This differentiates the book from other titles on the market whose primary focus is more research-oriented and aimed at more of a niche market. - Covers the fundamental principles of device engineering and molecular sensing, sensor theories and applications in biomedical science and engineering - Introduces nano/micro fabrication techniques, including MEMS, bioMEMS, microTAS and nanomaterials science that are essential in the miniaturization of versatile molecular sensors - Explores applications of nanomaterials and biomaterials, including proteins, DNAs, nanoparticles, quantum dots, nanotubes/wires and graphene in biomedicine
Due to their small size and their dependence on very fast phenomena, nanomaterials are ideal systems for computational modelling. This book provides an overview of various nanosystems classified by their dimensions: 0D (nanoparticles, QDs, etc.), 1D (nanowires, nanotubes), 2D (thin films, graphene, etc.), 3D (nanostructured bulk materials, devices). Fractal dimensions, such as nanoparticle agglomerates, percolating films and combinations of materials of different dimensionalities are also covered (e.g. epitaxial decoration of nanowires by nanoparticles, i.e. 0D+1D nanomaterials). For each class, the focus will be on growth, structure, and physical/chemical properties. The book presents a broad range of techniques, including density functional theory, molecular dynamics, non-equilibrium molecular dynamics, finite element modelling (FEM), numerical modelling and meso-scale modelling. The focus is on each method's relevance and suitability for the study of materials and phenomena in the nanoscale. This book is an important resource for understanding the mechanisms behind basic properties of nanomaterials, and the major techniques for computational modelling of nanomaterials. - Explores the major modelling techniques used for different classes of nanomaterial - Assesses the best modelling technique to use for each different type of nanomaterials - Discusses the challenges of using certain modelling techniques with specific nanomaterials
Nanostructured materials with multiple components and complex structures are the current focus of research and are expected to develop further for material designs in many applications in electrochemical, colloidal, medical, pharmaceutical, and several other fields. This book discusses complex nanostructured systems exemplified by nanoporous silicates, spontaneously formed gels from silica-nanocolloidal solutions, and related systems, and examines them using molecular dynamics simulations. Nanoporous materials, nanocolloidal systems, and gels are useful in many applications and can be used in electric devices and storage, and for gas, ion, and drug delivery. The book gives an overview of the history, current status, and frontiers of the field. It also discusses the fundamental aspects related to the common behaviors of some of these systems and common analytical methods to treat them.
This third volume in the series represents the Proceedings of the 3rd International Nanophotonics Symposium, July 6-8, 2006, Icho-Kaikan, Osaka University, Osaka, Japan. Over a two-day symposium, distinguished scientists from around the world convened to discuss the latest progress in this field and the conclusions have been summarised in Nano Biophotonics: Science and Technology. The contents of this book have been compiled by invited lecturers, research members of the relevant projects/program, and some of general participants. The book has 27 chapters which are classified into 4 parts; nano bio-spectroscopy, nano bio-dynamics, nano bio-processing, and nano bio-devices.* Bridges the gap between conventional photophysics & photochemistry and nanoscience* Continuing the series that focuses on 'hot' areas of photochemistry, optics, material science and bioscience
This is a vital book for those who care about the environment, society and deploying new technology to check the destructive power of humankind.- Allan Thornton, President, Environmental Investigation Agency, Washington, DC., and recipient of the Albert Schweitzer MedalThis book will shake conventional environmental wisdom to its roots. ... A landmark work that should be read by environmentalists and businesspersons alike.- Patrick Moore, cofounder, Greenpeace; president, GreenspiritIn Our Molecular Future [Mulhall] neatly outlines why our increasing ability to manipulate single atoms and molecules is a concern, and lays out the opportunities and threats this technology presents. And it''s surprisingly readable, unlike most of the nanobabble in the science journals. In the end, as Mulhall admits, he poses more questions than he answers. But that''s a good place to start.-New ScientistI just finished reading Douglas Mulhall''s outstanding new book Our Molecular Future . . . and I highly recommend it. Put this one at the top of your list! . . . In an easy to read format, with very few forays into geek-speak, Mulhall presents his well considered and thoroughly researched theories. Overall, an excellent overview for those who wish to understand how disruptive and enabling technologies may save us from ourselves and from mother nature. And along the way you will learn a lot about how nanoscale technologies may enhance our lives, provide abundance for all, and greatly raise the standard of living for everyone. . . . Rating: five stars out of five.- Rocky Rawstern, Nanotech NowWhat Alvin Toffler''s Future Shock was to the 20th century, Our Molecular Future will be to the 21st century.'What will happen to our jobs, health care, and investments when the molecular revolution hits?How might artificial intelligence transform our lives?How can molecular technologies help us cope with climate changes, earthquakes, and other extreme natural threats?Our Molecular Future explores some intriguing possibilities that answer these questions and many others. Douglas Mulhall describes the exponential changes that are about to be wrought by the nanotechnology and robotic revolutions, which promise to reduce the scale of computing to the nanometerùa billionth of a meterùwhile increasing computing power to almost unimaginable levels.The resulting convergence of genetics, robotics, and artificial intelligence may give us hitherto undreamed-of capacities to transform our environment and ourselves. In the not-so-distant future, our world may include machines that scour our arteries to prevent heart disease, cars and clothes that change color at our whim, exotic products built in our own desktop factories, and enhancements to our personal financial security despite greatly accelerated obsolescence.But while technology is making these fantastic leaps, we may also encounter surprises that throw us into disarray: climate changes, earthquakes, or even a seemingly improbable asteroid collision. These extremes are not the nightmare scenarios of sensationalists, Mulhall stresses, nor are many of them human induced. Instead, they may be part of nature''s cycleùrecurring more often than we''ve thought possible.The good news is that this convergence of catastrophe and technological transformation may work to our advantage. If we''re smart, according to Mulhall, we can use molecular machines to protect ourselves from nature''s worst extremes, and harness their potential benefits to usher in an economic renaissance.This visionary link between future technology and past disasters is a valuable guide for every one of us who wants to be prepared for the twenty-first century.Further Praise for OUR MOLECULAR FUTURE:A provocative and profoundly convincing message from the future.- Graham Hancock, archaeological journalist and author of Fingerprints of the GodsIn a breezy, journalistic style, Our Molecular Future takes us on a tour through some of the issues that will preoccupy ma
- Gives unified presentation of many of the major principles in nanotechnology: molecular-based study of condensed matter in small systems. - Authored by an expert in the molecular-based study of matter - Accessible to students, yet of interest to experts - Emphasizes the intrinsic beauty of methods of bottom-up nanotechnology - Includes many full-color figures
