Self-Assembled Monolayers into the 21st Century: Recent Advances and Applications
Author(s)
Justin Gooding, J.
Mearns, Freya
Yang, Wenrong
Liu, Jingquan
Griffith University Author(s)
Year published
2003
Metadata
Show full item recordAbstract
The modification of an interface on a molecular level with more than one molecular -building blockנis essentially an example of the -bottom ᠵpנfabrication principle of nanotechnology. The fabrication of such integrated molecular systems in electrochemistry has seen rapid progress in recent years via the development of sensing interfaces fabricated using self-assembled monolayers (SAMs). This review outlines recent advances and applications of selfassembled monolayers for modifying electrodes with an emphasis on the development of integrated molecular systems. First, some basic issues regarding fabricating integrated molecular ...
View more >The modification of an interface on a molecular level with more than one molecular -building blockנis essentially an example of the -bottom ᠵpנfabrication principle of nanotechnology. The fabrication of such integrated molecular systems in electrochemistry has seen rapid progress in recent years via the development of sensing interfaces fabricated using self-assembled monolayers (SAMs). This review outlines recent advances and applications of selfassembled monolayers for modifying electrodes with an emphasis on the development of integrated molecular systems. First, some basic issues regarding fabricating integrated molecular systems, such as the role of the surface topography of the electrode and patterning surfaces, are discussed. Subsequently an overview of recent developments in pH, inorganic and bio sensing involving the use of SAMs is given. Finally emerging trends in using molecular building blocks in the fabrication of integrated molecular systems, such as nanotubes, dendrimers and nanoparticles, are reviewed.
View less >
View more >The modification of an interface on a molecular level with more than one molecular -building blockנis essentially an example of the -bottom ᠵpנfabrication principle of nanotechnology. The fabrication of such integrated molecular systems in electrochemistry has seen rapid progress in recent years via the development of sensing interfaces fabricated using self-assembled monolayers (SAMs). This review outlines recent advances and applications of selfassembled monolayers for modifying electrodes with an emphasis on the development of integrated molecular systems. First, some basic issues regarding fabricating integrated molecular systems, such as the role of the surface topography of the electrode and patterning surfaces, are discussed. Subsequently an overview of recent developments in pH, inorganic and bio sensing involving the use of SAMs is given. Finally emerging trends in using molecular building blocks in the fabrication of integrated molecular systems, such as nanotubes, dendrimers and nanoparticles, are reviewed.
View less >
Journal Title
Electroanalysis
Volume
15
Issue
2
Subject
Sensor Technology (Chemical aspects)
Electroanalytical Chemistry
Analytical Chemistry
Physical Chemistry (incl. Structural)
Other Chemical Sciences