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Amperometric sensors, biosensors included, particularly rely on
suitable electrode materials. Progress in material science has led
to a wide variety of options that are available today. For the
first time, these novel functional electrode coating materials are
reviewed in this monograph, written by and for electroanalytical
chemists. This includes intrinsically conducting, redox and
ion-exchange polymers, metal and carbon nanostructures, silica
based materials. Monolayers and relatively thick films are
considered. The authors critically discuss preparation methods, in
addition to chemical and physical characteristics of these new
materials. They present various examples of emerging applications
in electroanalysis. Due to its comprehensive coverage, the book
will become an indispensable source for researchers working on the
development and even proper use of new amperometric sensor systems.
Amperometric sensors, biosensors included, particularly rely on
suitable electrode materials. Progress in material science has led
to a wide variety of options that are available today. For the
first time, these novel functional electrode coating materials are
reviewed in this monograph, written by and for electroanalytical
chemists. This includes intrinsically conducting, redox and
ion-exchange polymers, metal and carbon nanostructures, silica
based materials. Monolayers and relatively thick films are
considered. The authors critically discuss preparation methods, in
addition to chemical and physical characteristics of these new
materials. They present various examples of emerging applications
in electroanalysis. Due to its comprehensive coverage, the book
will become an indispensable source for researchers working on the
development and even proper use of new amperometric sensor systems.
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