Oligonucleotide assisted light-emitting Alq3 microrods: energy transfer effect with fluorescent dyes

Chunzhi Cui; Dong Hyuk Park; Jeongyong Kim; Jinsoo Joo; Dong June Ahn

doi:10.1039/C3CC41255E

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Chemical Communications

Issue 47, 2013

Urgent high quality communications from across the chemical sciences.

Impact Factor 6.169 100 Issues per Year Indexed in MEDLINE

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Oligonucleotide assisted light-emitting Alq3 microrods: energy transfer effect with fluorescent dyes

Chunzhi Cui,^a Dong Hyuk Park,^a^b^c Jeongyong Kim,^d Jinsoo Joo*^b and Dong June Ahn*^a

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Department of Chemical and Biological Engineering, and KU-KIST School of Converging Science and Technology, Korea University, Seoul 136-713, Korea
E-mail: ahn@korea.ac.kr ;
Tel: +82-2-3290-3301

Department of Physics, Korea University, Seoul 136-713, Korea
E-mail: jjoo@korea.ac.kr ;
Tel: +82-2-3290-3103

Division of Nano-Systems Engineering, Inha University, Incheon 402-751, Korea
E-mail: donghyuk@inha.ac.kr

Department of Physics, University of Incheon, Incheon 406-772, Korea
E-mail: jeongyong@incheon.ac.kr ;
Tel: +82-32-835-8222

Chem. Commun., 2013,49, 5360-5362

DOI: 10.1039/C3CC41255E
Received 17 Feb 2013, Accepted 15 Mar 2013
First published online 15 Mar 2013

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Oligonucleotide assisted tri(8-hydroxyquinoline) aluminium (Alq3) microrods were prepared for the first time. When hybridized with oligonucleotide labeled by Cy3 fluorescent dye, a significant photoluminescence variation of the Alq3 microrods was observed due to Förster resonance energy transfer, unlike when Cy5-oligonucleotide was used. Versatile nucleotide manipulation would open up wider applications of Alq3-based materials, based on this fundamental observation.

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Chunzhi Cui
Dong Hyuk Park
Jeongyong Kim
Jinsoo Joo
Dong June Ahn

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