-------------------------------------------------------

Visit amazon.com for purchasing the book..

Online Donations

Please Donate If You feel this site is good and knowledge
resource of books or literature:

https://www.akshayapatra.org/onlinedonations

You can help the site by posting and/or telling your friends+colleagues about this place :)
Before God we are all equally wise - and equally foolish-Albert Einstein
Get your own Wavy Scroller
(Knowledge is not power; the ability to use that knowledge is power )

© Copyright 2009 Scientist. All rights reserved.

Disclaimer: Scientist-At-Work does not store any files on its server. We only index and link to webpages on, and provided by, other third-party websites.

"Use your head - I did!"

Sunday, January 4, 2009

Spectroelectrochemistry

Product Description

Electrochemistry affects several relevant research subjects of physics, chemistry and biology such as the transformation of materials, the transfer of information (especially in living systems), or the conversion and storage of energy. In addition, electrochemical processes constitute a major class of chemical reactions both in the laboratory and on large industrial scales. While conventional analytical electrochemistry provides excellent methods to determine concentrations (e.g. in sensor technology), to yield energy data in the form of redox potentials and to elucidate formal reaction mechanisms via kinetic analysis, these techniques alone are often not immediately suitable to identify unknown species which are formed as intermediates or as products in a redox reaction.
The combination of reaction-oriented electrochemistry with species-focused spectroscopy in spectroelectrochemistry can solve this problem and thus allow for a more complete analysis of electron transfer processes and complex redox reactions. Many research groups from various sub-fields of the chemical sciences have engaged in recent years in using and developing this combined methodology. While the technique has been well developed during the last few decades, its application in various fields of chemistry has only recently become more widespread. Readily accessible, inexpensive equipment and lower barriers to application have contributed to this situation and, at the same time, it is becoming less and less acceptable in chemical research to assign redox transformations without spectral evidence. Spectroelectrochemistry has therefore evolved as a powerful yet usually inexpensive technique which yields mechanistic (chemistry), energy-relevant (electro) as well as electronic structure information (spectro). The whole range of the electromagnetic spectrum can be employed from x-ray absorption to NMR spectroscopies.

Yet while the method has become more commonplace, there are still aspects to be considered which require sound knowledge and experience. This book serves as a guide and as an illustration of the kind of research where spectroelectrochemistry can make a difference in the understanding of redox reactions through identification of their intermediates and products. Relevant examples involving UV-VIS-NIR and IR absorption spectroscopy as well as electron paramagnetic resonance (EPR) are presented in this book with the objective to illustrate the potential and the applications of this technique and to provide practical information. The topics covered include:
- organometallics
- coordination compounds (mixed-valent complexes, metalloporphyrins)
- compounds of biochemical interest such as iron-containing proteins.

The breadth and variety of reactions and materials covered are complemented by the straightforward interpretation of results in the understanding of redox reactions. The solutions available from the spectroelectrochemical investigation in the book do not only provide simultaneous reaction analysis and species identification but also an assessment of electronic situations and of intra- and intermolecular electron transfer. The book aims to familiarize the scientific community with this method by describing the experimental approaches possible and by pointing out under what diverse circumstances this technique can be useful.

download

No comments: