Issue 1, 2011

The use of dendrimers as high-performance shells for round-trip energy transfer: efficient trans-cisphotoisomerization from an excited triplet state produced within a dendrimer shell

Abstract

A series of stilbene-cored poly(benzyl ether) dendrimers with benzophenone peripheries were synthesized and their photophysical and photochemical properties were studied. Fluorescence studies revealed that singlet–singlet energy transfer (SSET) from the stilbene core to the benzophenone units took place efficiently in dendrimers of all generations. Similarly, phosphorescence and time-resolved spectroscopic measurements indicated efficient triplet–triplet energy transfer (TTET) from the benzophenone periphery to the stilbene core. Upon excitation at 310 nm, the stilbene core isomerizes via an energy round trip within the dendrimer shell. The quantum yields for the energy round trip (ΦERT), defined as the product of the quantum yields of SSET, intersystem crossing, and TTET (ΦERT = ΦSSΦiscΦTT), were extremely high for all generations—99%, 95% and 94% for G1, G2, and G3, respectively—which means that the excitation energy of the dendrimer core was transferred to the dendrimer periphery and back to the core almost quantitatively. The quantum yield for photoisomerization of G1–G3via an energy round trip was higher than for other stilbene-cored dendrimers, which mainly isomerize from the excited singlet state. Photostability in the dendrimers was also demonstrated and discussed.

Graphical abstract: The use of dendrimers as high-performance shells for round-trip energy transfer: efficient trans-cisphotoisomerization from an excited triplet state produced within a dendrimer shell

Article information

Article type
Paper
Submitted
07 Sep 2010
Accepted
15 Oct 2010
First published
09 Nov 2010

Photochem. Photobiol. Sci., 2011,10, 116-122

The use of dendrimers as high-performance shells for round-trip energy transfer: efficient trans-cisphotoisomerization from an excited triplet state produced within a dendrimer shell

Y. Miura, A. Momotake, K. Takeuchi and T. Arai, Photochem. Photobiol. Sci., 2011, 10, 116 DOI: 10.1039/C0PP00272K

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