Synthesis and Photophysics of Coaxial Threaded Molecular Wires: Polyrotaxanes with Triarylamine Jackets
Journal article, 2014

Conjugated polyrotaxanes jacketed with hole-transport groups have been synthesized from water-soluble polyrotaxanes consisting of a polyfluorene-alt-biphenylene (PFBP) conjugated polymer threaded through beta-cyclodextrin macrocycles. The hydroxyl groups of the oligosaccharides were efficiently functionalized with triphenylamine (TPA) so that every polyrotaxane molecule carries a coat of about 200 TPA units, forming a supramolecular coaxial structure. This architecture was characterized using a range of techniques, including small-angle X-ray scattering. Absorption of light by the TPA units results in excitation energy transfer (EET) and photoinduced electron transfer (ET) to the inner conjugated polymer core. These energy- and charge-transfer processes were explored by steady-state and time-resolved fluorescence spectroscopy, femtosecond transient absorption spectroscopy, and molecular modeling. The time-resolved measurements yielded insights into the heterogeneity of the TPA coat: those TPA units which are close to the central polymer core tend to undergo ET, whereas those on the outer surface of the polyrotaxane, far from the core, undergo EET. Sections of the backbone that are excited indirectly via EET tend to be more remote from the TPA units and thus are less susceptible to electron-transfer quenching. The rate of EET from the TPA units to the PFBP core was effectively modeled by taking account of the heterogeneity in the TPA-PFBP distance, using a distributed monopole approach. This work represents a new strategy for building and studying well-defined arrays of >100 covalently linked chromophores.

ENERGY-TRANSFER

DERMOTT G

CHARGE-TRANSPORT

1995

WHITE

PHOTOSYNTHETIC BACTERIA

RSTER T

P269

P55

1948

ARCHIVES OF MICROBIOLOGY

ELECTROLUMINESCENCE

ANNALEN DER PHYSIK

P517

ATOM FORCE-FIELD

NATURE

ELECTRON-TRANSFER

V2

AEHELIN LA

V119

V374

1978

CYCLODEXTRIN

SUPRAMOLECULAR CONTROL

BINARY BLENDS

CONJUGATED POLYROTAXANES

Author

G. Sforazzini

University of Oxford

Axel Kahnt

Chalmers, Chemical and Biological Engineering, Physical Chemistry

Michael Wykes

Universite de Mons

Johannes K. Sprafke

University of Oxford

S. Brovelli

University of Milano-Bicocca

University College London (UCL)

D. Montarnal

University of California

F. Meinardi

University of Milano-Bicocca

F. Cacialli

University College London (UCL)

David Beljonne

Universite de Mons

Bo Albinsson

Chalmers, Chemical and Biological Engineering, Physical Chemistry

Harry L. Anderson

University of Oxford

Journal of Physical Chemistry C

1932-7447 (ISSN) 1932-7455 (eISSN)

Vol. 118 8 4553-4566

Areas of Advance

Nanoscience and Nanotechnology

Subject Categories

Physical Chemistry

DOI

10.1021/jp500624q

More information

Latest update

12/9/2020