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Self-Assembly of Magnetic and Semiconductiong Nanoparticles on Modified Diblock Copolymer Templates

Published online by Cambridge University Press:  26 February 2011

Nataliya A Yufa ,
Amadou L Cisse ,
Seth B Darling ,
Sam D Bader ,
Philippe Guyot-Sionnest  and
Steven J Sibener
Nataliya A Yufa
Affiliation:
nat222@uchicago.edu, University of Chicago, 5640 S Ellis Ave, Chicago, IL, 60637, United States, (773)702-7209
Amadou L Cisse
Affiliation:
acisse@uchicago.edu
Seth B Darling
Affiliation:
darling@anl.gov
Sam D Bader
Affiliation:
bader@anl.gov
Philippe Guyot-Sionnest
Affiliation:
pgs@uchicago.edu, University of Chicago, Chemistry and Physics, United States
Steven J Sibener
Affiliation:
s-sibener@uchicago.edu, University of Chicago, The James Franck Institute, United States
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Abstract

Combining inorganic and organic components to create functional materials has been an active area of research in recent years. Inorganic components possess useful electric, photonic, or magnetic properties while organic components can self-assemble into a variety of morphologies on the nanoscale. We describe a novel approach for arraying nanoparticles using a modified diblock copolymer scaffold. Thin (30 nm) films of poly(styrene-block-methylmethacrylate) (PS-b-PMMA) copolymer were used as a substrate. Upon annealing, PS-b-PMMA forms lying-down cylinders of PMMA in a matrix of PS. These thin films were modified by exposure to ultraviolet light in vacuum which photochemically thinned the PMMA, creating a more highly corrugated surface. We find that colloidal superparamagnetic FePt nanodots and semiconducting CdSe nanodots deposited on this surface show a strong preference for the photochemically modified phase. This hierarchical self-assembly method may prove useful for many nanomaterials-based applications.

Keywords

self-assemblynanostructuremagnetic
Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 901: Symposium R – Assembly at the Nanoscale – Toward Functional Nanostructured Materials , 2005 , 0901-Ra09-06
Copyright
Copyright © Materials Research Society 2006

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References

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