Oxygen Microscopy by Two‐Photon‐Excited Phosphorescence

Olga S. Finikova; Artem Y. Lebedev; Alexey Aprelev; Thomas Troxler; Feng Gao; Carmen Garnacho; Silvia Muro; Robin M. Hochstrasser; Sergei A. Vinogradov

doi:10.1002/cphc.200800296

Oxygen Microscopy by Two‐Photon‐Excited Phosphorescence

Olga S. Finikova(University of Pennsylvania), Artem Y. Lebedev(University of Pennsylvania), Alexey Aprelev(Drexel University), Thomas Troxler(University of Pennsylvania), Feng Gao(University of Pennsylvania), Carmen Garnacho(University of Pennsylvania), Silvia Muro(University of Pennsylvania), Robin M. Hochstrasser(University of Pennsylvania), Sergei A. Vinogradov(University of Pennsylvania)

ChemPhysChem

July 28, 2008

10.1002/cphc.200800296

Cited by 241Open Access

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Abstract

High-resolution images of oxygen distributions in microheterogeneous samples are obtained by two-photon laser scanning microscopy (2P LSM), using a newly developed dendritic nanoprobe with internally enhanced two-photon absorption (2PA) cross-section. In this probe, energy is harvested by a 2PA antenna, which passes excitation onto a phosphorescent metalloporphyrin via intramolecular energy transfer. The 2P LSM allows sectioning of oxygen gradients with near diffraction-limited resolution, and lifetime-based acquisition eliminates dependence on the local probe concentration. The technique is validated on objects with a priori known oxygen distributions and applied to imaging of pO(2) in cells.

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