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ELECTRONIC AND OPTICAL

TRANSDUCTION OF

PHOTOISOMERIZATION

PROCESSES AT MOLECULAR-

AND BIOMOLECULAR-

FUNCTIONALIZED SURFACES

EUGENII KATZ
ANDREW N.SHIPWAY
ITAMARWILLNER
Institute of Chemistry and The Farkas Center for Light-Induced Processes, The Hebrew
University of Jerusalem, Jerusalem 91904, Israel

7.1 INTRODUCTION
7.2 ELECTRONICALLY TRANSDUCED PHOTOCHEMICAL
SWITCHING OF ORGANIC MONOLAYERS AND THIN
FILMS
7.3 ELECTRONICALLY TRANSDUCED PHOTOCHEMICAL
SWITCHING OF ENZYME MONOLAYERS
7.3.1 Redox-Enzymes Tethered with Photoisomerizable Groups
7.3.2 Enzymes Reconstituted onto Photoisomerizable
FAD-Cofactors
7.4 TRANSDUCTION AT "COMMAND" INTERFACES
7.4.1 Electrochemical Processes of Organic Redox Molecules at
"Command" Interfaces
7.4.2 Electrochemical Processes of Proteins and Enzymes at
"Command" Interfaces
7.4.3 Surface-Reconstituted Enzymes at Photoisomerizable
Interfaces
7.4.4. Mechanical Photoisomerizable Monolayers
7.5 RECOGNITION PHENOMENA AT SURFACES USING
PHOTOISOMERIZABLE GUEST OR HOST COMPONENTS
7.5.1 Affinity Interactions at Interfaces Using Soluble
Photoisomerizable Guest Components
7.5.2 Affinity Interactions at Interfaces Using Immobilized
Photoisomerizable Host Components

I'hotoreactwe Organic Thin Films
Copyright 2002, Elsevier Science (USA). All rights of reproduction in any form reserved.

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