Over the past two decades, solution/solid STM has made clear contributions to our fundamental understanding of the thermodynamic and kinetic processes that occur in molecular self-assembly at surfaces. As the field matures, we provide an overview of how solution/solid STM is emerging as a tool to elucidate and guide the use of self-assembled molecular systems in practical applications, focusing on small molecule device engineering, molecular recognition and sensing and electronic modification of 2D materials.
Probing functional self-assembled molecular architectures with solution/solid scanning tunnelling microscopy / Cui, D.; Macleod, J. M.; Rosei, F.. - In: CHEMICAL COMMUNICATIONS. - ISSN 1359-7345. - 54:75(2018), pp. 10527-10539. [10.1039/c8cc04341h]
Probing functional self-assembled molecular architectures with solution/solid scanning tunnelling microscopy
Rosei F.
2018-01-01
Abstract
Over the past two decades, solution/solid STM has made clear contributions to our fundamental understanding of the thermodynamic and kinetic processes that occur in molecular self-assembly at surfaces. As the field matures, we provide an overview of how solution/solid STM is emerging as a tool to elucidate and guide the use of self-assembled molecular systems in practical applications, focusing on small molecule device engineering, molecular recognition and sensing and electronic modification of 2D materials.Pubblicazioni consigliate
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