Team examines cation-migration-induced resistive switching in metal/oxide thin-film/metal structures
View full post on nanotechweb.org: lab talk
Nanotechnology Jobs, Books, News
Team examines cation-migration-induced resistive switching in metal/oxide thin-film/metal structures
View full post on nanotechweb.org: lab talk
Product Description
Charge migration through DNA has been the focus of considerable interest in recent years. A deeper understanding of the nature of charge transfer and transport along the double helix is important in fields as diverse as physics, chemistry and nanotechnology. It has also important implications in biology, in particular in DNA damage and repair. This book presents contributions from an international team of researchers active in this field. It contains a wide range of topics that includes the mathematical background of the quantum processes involved, the role of charge transfer in DNA radiation damage, a new approach to DNA sequencing, DNA photonics, and many others. This book should be of value to researchers in condensed matter physics, chemical physics, physical chemistry, and nanoscale sciences.
BUY FROM AMAZON –> Charge Migration in DNA: Perspectives from Physics, Chemistry, and Biology
Product Description
This book is a new view on current approaches to biotechnology sciences specially stem cell researches. The authors of this book come from the bioengineering, and physical chemistry communities and each joins the discussion with a unique perspective on biological systems. Consequently, the approaches range from finite element methods commonly used in continuum engineering to biology of the stem cell as a cross-linked nanotechnology science. Nanotechnology is beginning to help advance the equally pioneering field of stem cell research, with devices that can precisely control stem cells and provide nanoscaffolds and magnetic tracking systems. Nanotechnology has been increasingly used to control the cellular environment. In addition, nanoscale topography has been shown to be a powerful regulator of cell behavior such as alignment, migration and differentiation. Therefore there is a need to develop methods for visualizing transplanted stem cells and for quantifying their behavior for a better understanding of their migrational dynamics and differentiation process and of their regeneration potential.
BUY FROM AMAZON –> Nanotechnology Applied to Stem Cell-Substratum Interactions: Models and Experiments
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