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Mechanism of phosphorescence quenching in photomagnetic molecules determined by positron annihilation spectroscopy (1994)

Naidu, S. V. N. ; Singh, Jag J. ; Eftekhari, A.

In: CASI

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Publication Date: 2019-07-13

Description: Platinum Octaethyl Porphyrin (Pt.OEP) is an efficient phosphor under ultraviolet excitation. The phosphorescent triplet state (T(sub 1)) is readily quenched by the oxygen (O2) molecules. This phenomenon is being utilized as the basis for global air pressure measurements in aerodynamic facilities at various laboratories. The exact mechanism by which O2 molecules quench the (T(sub 1) - S(sub 0)) transitions is still unknown. The diamagnetic S(sub n) singlet states, which feed T(sub 1) states via intersystem crossings, would presumably not be affected by O2. It must be the magnetic T(sub 1) states, which can interact with the paramagnetic O2 molecules, that are affected. However, our positron lifetime and Doppler broadening studies suggest the formation of (S(sub n) central dot O2) complexes which can also eventually reduce the population of the T(sub 1) states (i.e. quench phosphorescence). This is possible since higher triplet states in (Pt.OEP) are admixed with the S(sub n) states via spin orbit interactions. The experimental procedures and the results of various measurements are discussed in this paper.

Keywords: Atomic and Molecular Physics

Type: NASA-TM-111534 , NAS 1.15:111534 , Meeting of the Southeastern Section of the American Physical Society; Nov 10, 1994 - Nov 12, 1994; Newport News, VA; United States

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Mechanism of phosphorescence quenching in photomagnetic molecules determined by positron annihilation spectroscopy (1994)

Singh, Jag J. ; Naidu, S. V. N. ; Eftekhari, A.

In: CASI

add to mindlist on the mindlist

Details

Publication Date: 2019-07-13

Description: Platinum Octaethyl Porphyrin (Pt.OEP) is an efficient phosphor under ultraviolet excitation. The phosphorescent triplet state (T(sub 1)) is readily quenched by the oxygen (O2) molecules. This phenomenon is being utilized as the basis for global air pressure measurements in aerodynamic facilities at various laboratories. The exact mechanism by which O2 molecules quench the (T(sub 1)-S(sub 0)) transitions is still unknown. The diamagnetic S(sub n) singlet states, which feed T(sub 1) states via intersystem crossings, would presumably not be affected by O2. It must be the magnetic T(sub 1) states, which can interact with the paramagnetic O2 molecules, that are affected. However, our positron lifetime and Doppler broadening studies suggest the formation of (S(sub n).02) complexes which can also eventually reduce the population of the T(sub 1) states (i.e. quench phosphorescence). This is possible since higher triplet states in (Pt-OEP) are admixed with the S(sub n) states via spin orbit interactions. The experimental procedures and the results of various measurements are discussed in this paper.

Keywords: Atomic and Molecular Physics

Type: NASA-TM-111524 , NAS 1.15:111524 , Meeting of the Southeastern Section of The American Physical Society; Nov 10, 1994 - Nov 12, 1994; Newport News, VA; United States

Format: application/pdf

Permalink

	Location	Call Number	Expected	Availability

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NASA TECHNICAL REPORTS

S·F·X

Overview

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