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Journal of Macromolecular Science, Part A
Pure and Applied Chemistry
Volume 45, 2008 - Issue 11
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Original Articles

Synthesis and Characterization of C60 Dyads with Highly Photoactive Dicyanoethylenylated Diphenylaminofluorene Chromophore Antenna

Seaho Jeon Department of Chemistry, University of Massachusetts Lowell, Lowell, MA, 01854
,
Grace So Department of Pathology and Laboratory Medicine, Mount Sinai Hospital and University of Toronto, Toronto, Canada
,
Robinson Anandakathir Department of Chemistry, University of Massachusetts Lowell, Lowell, MA, 01854
,
Taizoon Canteenwala Department of Chemistry, University of Massachusetts Lowell, Lowell, MA, 01854
,
Loon-Seng Tan Materials & Manufacturing Directorate, AFRL/RXBN, Air Force Research Laboratory, Wright-Patterson Air Force Base, Dayton, OH, 45433
,
Kenneth Pritzker Department of Pathology and Laboratory Medicine, Mount Sinai Hospital and University of Toronto, Toronto, Canada
&
Long Y. Chiang Department of Chemistry, University of Massachusetts Lowell, Lowell, MA, 01854
 show all
Pages 917-924 | Published online: 19 Nov 2008
 
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Abstract

We designed and synthesized a novel class of highly photoactive C60(> CPAF-Cn) nanostructures for their potential uses as photonic materials, using CPAF-Cn chromophore as the light-harvesting antenna. It is a part of our research effort on developing C60(> DPAF-Cn)-based nonlinear photonic organics. We extended the structural modification by chemical conversion of the keto group in C60(> DPAF-Cn) compound to a 1,1-dicyanoethylenyl moiety with stronger electron-withdrawing ability that resulted in a largely increased electronic polarization of the chromophore conjugate. Structural characterization of several C60(> CPAF-Cn) containing variable alkyl sidechains was made by various spectroscopic methods. Interestingly, the chemical modification leads to a large bathochromic shift of the major absorption band of C60(> CPAF-Cn) in the visible spectrum up to 600 nm and extending the photoresponsive capability of C60–DCE–DPAF nanostructures to longer red wavelengths than the parent C60(> DPAF-Cn) materials.

Acknowledgments

We thank Air Force Office of Scientific Research for funding under the contract number FA9550-05-1-0154.

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