Functional nanostructures by organized macromolecular-metallic hybrid systems

Stabilization of nanoparticles by block copolymers does allow accurate control of particle size and inter particle distance, and offers the possibility of producing thin optically transparent films and a new technique for lithography in the nanometer range. The approach is based on micelles of diblo...

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Bibliographic Details
Published inJournal of luminescence Vol. 76; pp. 168 - 173
Main Authors Spatz, J.P., Mößmer, S., Möller, M., Herzog, T., Plettl, A., Ziemann, P.
Format Journal Article Conference Proceeding
LanguageEnglish
Published Amsterdam Elsevier B.V 01.02.1998
Elsevier
Subjects
Chemistry
Colloidal state and disperse state
Exact sciences and technology
General and physical chemistry
Macromolecular-metallic hybrid system
Nanoparticles
Physical and chemical studies. Granulometry. Electrokinetic phenomena
Nanoparticles
Macromolecular-metallic hybrid system
Gold
Organization
Stabilization
Coagulation
Micelle
Transition metal
Experimental study
Metal particle
Transparent thin film
Scanning microscope
Transmission electron microscopy
Pyridine(2-vinyl) copolymer
Diblock copolymer
Force microscopy
Block copolymer
Styrene copolymer
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Summary:Stabilization of nanoparticles by block copolymers does allow accurate control of particle size and inter particle distance, and offers the possibility of producing thin optically transparent films and a new technique for lithography in the nanometer range. The approach is based on micelles of diblock copolymers with a polar core, which are formed in organic solution and whose core is able to bind a transition-metal compound. Chemical conversion of the inorganic species within the nanocompartment is employed to prepare sterically stabilized inorganic crystallites or clusters. The particle size and interparticle distance of these crystallites or clusters can be controlled exclusively by the film forming block copolymer. Controlled coagulation of spherical block copolymer micelles allows to agglomerate several clusters of equal size in one compartment and to prepare strings of the clusters. After film formation the polymer shell can be removed entirely by using an oxygen plasma technique resulting in the deposition of the naked clusters on different substrates without destroying the former particle organization.
ISSN:0022-2313
1872-7883
DOI:10.1016/S0022-2313(97)00144-0