Peter R. Ogilby scite author profile

Singlet oxygen, O(2)(a(1)Delta(g)), the lowest excited electronic state of molecular oxygen, has been known to the scientific community for approximately 80 years. It has a characteristic chemistry that sets it apart from the triplet ground state of molecular oxygen, O(2)(X(3)Sigma), and is important in fields that range from atmospheric chemistry and materials science to biology and medicine. For such a "mature citizen", singlet oxygen nevertheless remains at the cutting-edge of modern science. In this critical review, recent work on singlet oxygen is summarized, focusing primarily on systems that involve light. It is clear that there is indeed still something new under the sun (243 references).

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Imaging intracellular viscosity of a single cell during photoinduced cell death

Kuimova

et al. 2009

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Lifetime and Diffusion of Singlet Oxygen in a Cell

et al. 2005

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In time- and spatially resolved experiments, singlet molecular oxygen, O(2)(a(1)Delta(g)), was created in a single nerve cell upon irradiation of a sensitizer incorporated in the cell nucleus using a focused laser beam. The singlet oxygen thus produced was detected by its infrared phosphorescence. Data obtained indicate that, contrary to common perception, this reactive species can be quite long-lived in a cell and, as such, can diffuse over appreciable distances including across the cell membrane into the extra-cellular environment. These results provide a new perspective for mechanistic studies of photoinduced cell death and intracellular signaling.

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Chemistry of singlet oxygen. 42. Effect of solvent, solvent isotopic substitution, and temperature on the lifetime of singlet molecular oxygen (1.DELTA.g)

Ogilby¹,

Foote²

1983

J. Am. Chem. Soc.

396

295

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Singlet Oxygen as a Reactive Intermediate in the Photodegradation of an Electroluminescent Polymer

Scurlock¹,

Wang²,

Ogilby³

et al. 1995

J. Am. Chem. Soc.

342

290

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Peter R. Ogilby

Singlet oxygen: there is indeed something new under the sun

Imaging intracellular viscosity of a single cell during photoinduced cell death

Lifetime and Diffusion of Singlet Oxygen in a Cell

Chemistry of singlet oxygen. 42. Effect of solvent, solvent isotopic substitution, and temperature on the lifetime of singlet molecular oxygen (1.DELTA.g)

Singlet Oxygen as a Reactive Intermediate in the Photodegradation of an Electroluminescent Polymer

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