"Photosensitizer- Doped Conjugated Polymer Nanoparticles with High Cross-Sections for One- and Two- Photon Excitation" by Jennifer L. Grimland

Selected Works of Ria R. Ramoutar

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Photosensitizer- Doped Conjugated Polymer Nanoparticles with High Cross-Sections for One- and Two- Photon Excitation

Nanoscale (2011)

Jennifer L. Grimland, Clemson University
Changfeng Wu, Clemson University
Ria R. Ramoutar, Georgia Southern University
Julia L. Brumaghim, Clemson University
Jason McNeill, Clemson University

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Abstract

We report a novel nanoparticle that is promising for photodynamic therapy applications, which consists of a π-conjugated polymer doped with a singlet oxygen photosensitizer. The nanoparticles exhibit highly efficient collection of excitation light due to the large excitation cross-section of the polymer. A quantum efficiency of singlet oxygen production of 0.5 was determined. Extraordinarily large two-photon excitation cross-sections were determined, indicating promise for near infrared multiphoton photodynamic therapy. Gel electrophoresis of DNA after near-UV irradiation in the presence of nanoparticles indicated both purine base and backbone DNA damage.

Keywords

Photodynamic Therapy,
Quantum Efficiency,
Nanoparticles

Disciplines

Biochemistry and
Chemistry

Publication Date

2011

Citation Information

Jennifer L. Grimland, Changfeng Wu, Ria R. Ramoutar, Julia L. Brumaghim, et al.. "Photosensitizer- Doped Conjugated Polymer Nanoparticles with High Cross-Sections for One- and Two- Photon Excitation" Nanoscale Vol. 3 (2011)
Available at: http://works.bepress.com/ria_ramoutar/3/