Nanocontainers, i.e. particles at the micro and nano scale that can host guest molecules, are of highest interest for various applications especially in nanoscience and biomedicine. Popular examples are the delivery of phar-maceuticals or active agents to specific cell, nerve or tissue domains or the organization of larger scaffolds of artificial matter by arrangements of nancontainers [1]. While in some applications the precise control of the position of individual nanocontainers is negligible, it becomes most important for hierarchical supramolecular organisation. Here, microporous nanocontainers are loaded with guest molecules that are not covalently bound, but occupy cavities of highest geometrical order, and this order is directly transferred to the molecules. The order can be extended from the molecular to the microscopic scale by arranging and organizing the nanocontainers themselves - usually by self-assembly or by chemical means.
Holographic optical tweezers induced hierarchical supramolecular organization / M. Woerdemann, C. Alpmann, A. Devaux, L. De Cola, C. Denz - In: 2011 Conference on Lasers and Electro-Optics Europe and 12th European Quantum Electronics Conference (CLEO EUROPE/EQEC)[s.l] : IEEE, 2011. - ISBN 9781457705335. - pp. 1-1 (( Intervento presentato al 12. convegno Conference on Lasers and Electro-Optics Europe and 12th European Quantum Electronics Conference tenutosi a Munich nel 2011 [10.1109/CLEOE.2011.5943247].
Holographic optical tweezers induced hierarchical supramolecular organization
L. De Cola;
2011
Abstract
Nanocontainers, i.e. particles at the micro and nano scale that can host guest molecules, are of highest interest for various applications especially in nanoscience and biomedicine. Popular examples are the delivery of phar-maceuticals or active agents to specific cell, nerve or tissue domains or the organization of larger scaffolds of artificial matter by arrangements of nancontainers [1]. While in some applications the precise control of the position of individual nanocontainers is negligible, it becomes most important for hierarchical supramolecular organisation. Here, microporous nanocontainers are loaded with guest molecules that are not covalently bound, but occupy cavities of highest geometrical order, and this order is directly transferred to the molecules. The order can be extended from the molecular to the microscopic scale by arranging and organizing the nanocontainers themselves - usually by self-assembly or by chemical means.
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