Electrochemical nanotechnology : in-situ local probe techniques at electrochemical interfaces
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Bibliographic Information
Electrochemical nanotechnology : in-situ local probe techniques at electrochemical interfaces
Wiley-VCH, c1998
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Note
Includes bibliographical references and index
A publication initiated by IUPAC
Description and Table of Contents
Description
To be able to understand at the atomic level what happens on an electrochemical interface, scientists have developed tools which allow them to monitor the reactions taking place within extremely small areas. This text explains inventions in this field and investigates their applications. The most common type of electrochemical interface is the surface of a metal in contact with water, such as the body of a car when it is raining. Traditional techniques for investigating the (corrosion) processes occurring in this situation deal with relatively large parts of the surfaces.
Table of Contents
- Local probing of electrochemical processes at non-ideal electrodes
- electrochemistry and nanotechnology
- imaging of electrochemical processes and biological macromolecular adsorbates by in-situ scanning tunnelling microscopy
- beyond the landscapes - imaging the invisible
- roughness kinetics and mechanism derived from the analysis of AFM and STM data
- electrodes with defined mesoscopic structure
- in-situ stress measurements at the solid
- liquid interface using a micromechanical sensor
- surface structure and electrochemistry - new insight by scanning tunnelling microscopy
- STM and AFM studies of electrified solid
- liquid interface - monolayers, multilayers and organic transormations
- scanning probe microscopy studies of molecular redox films
- new aspects of iodine-modified single-crystal electrodes
- the growth and the surface properties of polypyrrole on single-crystal graphite electrodes as studied by in situ electrochemical scanning probe microscopy
- nucleation and growth at metal electrode surfaces
- STM study of electrodeposition of strained-layer metallic superlattices
- STM studies of thin anodic oxide layers
- local probing of electrochemical interfaces in corrosion research
- tunnelling mechanisms in electrochemical STM
- SXM investigations on oxide-covered titanium surfaces - problems and possiblities
- electrochemical surface processing at the atomic level
- in situ AFM study for semiconductor electrodes in electrolyte solutions
- in situ STM and UHV-EC - complementary, not competing techniques
- growth morphology and molecular orientation of additives in electrocrystallization studied by surface-enhanced Raman spectroscopy
- instrumental design and prospects for NMR electrochemistry.
by "Nielsen BookData"