In this Communication, we describe a high-resolution STM study on the self-assembly of different alkyl-substituted PTTPs at the graphite–solution interface. By investigating the competitive adsorption among three similar derivatives simultaneously present in an equimolar mixture in the super- natant solution, we provide direct insight into the thermo- dynamics of physisorption at the solid–liquid interface. Molecular-modeling simulations provide an atomistic picture of the assembly of molecules on graphite and a quantitative estimation of the energetics of the physisorption process.

Competitive Physisorption Among Alkyl-Substituted pi-Conjugated Oligomers at the Solid-Liquid Interface: Towards Prediction of Self-Assembly at Surfaces from a Multicomponent Solution / M. Bonini; L. Zalewski; T. Breiner; F. Doetz; M. Kastler; V. Schaedler; M. Surin; R. Lazzaroni; P. Samorì. - In: SMALL. - ISSN 1613-6810. - STAMPA. - 5:(2009), pp. 1521-1526. [10.1002/smll.200801901]

Competitive Physisorption Among Alkyl-Substituted pi-Conjugated Oligomers at the Solid-Liquid Interface: Towards Prediction of Self-Assembly at Surfaces from a Multicomponent Solution

BONINI, MASSIMO;
2009

Abstract

In this Communication, we describe a high-resolution STM study on the self-assembly of different alkyl-substituted PTTPs at the graphite–solution interface. By investigating the competitive adsorption among three similar derivatives simultaneously present in an equimolar mixture in the super- natant solution, we provide direct insight into the thermo- dynamics of physisorption at the solid–liquid interface. Molecular-modeling simulations provide an atomistic picture of the assembly of molecules on graphite and a quantitative estimation of the energetics of the physisorption process.
2009
SMALL
5
1521
1526
M. Bonini; L. Zalewski; T. Breiner; F. Doetz; M. Kastler; V. Schaedler; M. Surin; R. Lazzaroni; P. Samorì
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Utilizza questo identificatore per citare o creare un link a questa risorsa: https://hdl.handle.net/2158/388319
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