Biomolecular Electronics

Biomolecular Electronics – the electrical control of biological phenomena – is a scientific challenge that, once fully realized, will find a wide range of applications from electronics and computing to medicine and therapeutic techniques. This new arena of biomolecular electronics is approached using familiar concepts from many areas such as electrochemistry, device electronics and some mechanisms of gene expression level control. Practical techniques are explored by which electrical and electronic means can be used to control biological reactions and processes. Also, the current and future applications for this new and expanding field are discussed. This book is aimed at scientists and engineers involved in both research and commercial applications across fields including bioelectronics, bionanotechnology, electrochemistry and nanomedicine – providing a state-of-the-art survey of what's going on at the boundary between biology and electronic technology at the micro- and nano- scales, along with a suggestive insight into future possible developments. Demystifies the science and applications of electrically-driven biological reactions. Explains how the techniques of bioelectronics and electrochemistry can be deployed as biological control technologies. Provides applications information for diverse areas from bio-electrochemistry to electrical control of gene expression levels.

Produk Detail:

  • Author : Paolo Facci
  • Publisher : William Andrew
  • Pages : 256 pages
  • ISBN : 1455731528
  • Rating : 5/5 from 1 reviews
CLICK HERE TO GET THIS BOOKBiomolecular Electronics

Biomolecular Electronics

Biomolecular Electronics
  • Author : Paolo Facci
  • Publisher : William Andrew
  • Release : 03 April 2014
GET THIS BOOKBiomolecular Electronics

Biomolecular Electronics – the electrical control of biological phenomena – is a scientific challenge that, once fully realized, will find a wide range of applications from electronics and computing to medicine and therapeutic techniques. This new arena of biomolecular electronics is approached using familiar concepts from many areas such as electrochemistry, device electronics and some mechanisms of gene expression level control. Practical techniques are explored by which electrical and electronic means can be used to control biological reactions and processes. Also, the

Molecular and Biomolecular Electronics

Molecular and Biomolecular Electronics
  • Author : Chemical Congress of North America,Chemical Congress of North America Staff,N. Y.) Chemical Congress of North America 1991 (New York,Robert R. Birge,American Chemical Society. Division of Biochemical Technology
  • Publisher : Amer Chemical Society
  • Release : 17 May 1994
GET THIS BOOKMolecular and Biomolecular Electronics

A comprehensive review of molecular and biomolecular electronics, the final stage in the miniaturization of computer circuitry that provides promising new methodologies for high speed signal processing and communication, novel associative and neural architectures, and linear and nonlinear devices and memories. Includes coverage of quantum electronics, nanoscale semiconductor fabrication, genetic engineering, molecular biophysics, self-assembly, and nonlinear optics. Each chapter includes an overview of the fundamental methods and procedures followed by a review of recent research.

Biomolecular Electronics

Biomolecular Electronics
  • Author : Nikolai Vsevolodov
  • Publisher : Springer Science & Business Media
  • Release : 06 December 2012
GET THIS BOOKBiomolecular Electronics

The properties of materials depend on the nature of the macromolecules, small molecules and inorganic components and the interfaces and interactions between them. Polymer chemistry and physics, and inorganic phase structure and density are major factors that influence the performance of materials. In addition, molecular recognition, organic-inorganic interfaces and many other types of interactions among components are key issues in determining the properties of materials for a wide range of applications. Materials require ments are becoming more and more specialized

Nano and Molecular Electronics Handbook

Nano and Molecular Electronics Handbook
  • Author : Sergey Edward Lyshevski
  • Publisher : CRC Press
  • Release : 03 October 2018
GET THIS BOOKNano and Molecular Electronics Handbook

There are fundamental and technological limits of conventional microfabrication and microelectronics. Scaling down conventional devices and attempts to develop novel topologies and architectures will soon be ineffective or unachievable at the device and system levels to ensure desired performance. Forward-looking experts continue to search for new paradigms to carry the field beyond the age of microelectronics, and molecular electronics is one of the most promising candidates. The Nano and Molecular Electronics Handbook surveys the current state of this exciting, emerging

Green Electronics

Green Electronics
  • Author : Cristian Ravariu,Dan Mihaiescu
  • Publisher : BoD – Books on Demand
  • Release : 20 June 2018
GET THIS BOOKGreen Electronics

The Green Electronics book is intended to stimulate people's thinking toward the new concepts of an environment-friendly electronics - the main challenge in the future. The book offers multiple solutions to push the classical electronic industry toward green concepts, aided by nanotechnologies, with revolutionary features that provide low power consumption in electronics, use biomaterials for integrated structures, and include environmental monitoring tools. Based on organic semiconductors/insulators without toxic precursors, green electronic technologies launched promising devices like OLED, OTFT, or

Molecular Electronics

Molecular Electronics
  • Author : Ioan Baldea
  • Publisher : CRC Press
  • Release : 05 January 2016
GET THIS BOOKMolecular Electronics

Molecular electronics, an emerging research field at the border of physics, chemistry, and material sciences, has attracted great interest in the last decade. To achieve the ultimate goal of designing molecular electronic devices with the desired functionality and experimental manipulation at the single-molecule level, theoretical understanding of electron transport at the nanoscale is an important prerequisite. This book, a multi-authored volume comprising reviews written by leading scientists, discusses recent advances in the field. It emphasizes the need for studies beyond