An application of a two-dimensional photoncounter for the determination of emission spectra of thermoluminescence from photosynthetic systems

Kintake Sonoike; Yorinao Inoue

doi:10.1016/0022-2313(92)90025-5

An application of a two-dimensional photoncounter for the determination of emission spectra of thermoluminescence from photosynthetic systems

Kintake Sonoike^*, Yorinao Inoue

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

4 Citations (Scopus)

Abstract

Emission spectra of two components of thermoluminescence from photosynthetic systems were measured using a two-dimensional photoncounter. Application of this detector system enormously improved the signal to noise (S/N) ratio and enabled the determination of an emission spectrum of a specific thermoluminescence component. The B-band emitting at 30°C showed an emission spectrum having a single peak at 690 nm, whereas the Z-band emitting at -160°C showed a spectrum having two peaks, the major band at 740 nm and a satellite band at 690 nm. It was revealed that the longer wavelength component arises from photosystem I and the shorter wavelength component from photosystem II. Light harvesting chlorophyll a/b protein complexes (LHCI and LHCII) were also found to emit the Z-band at 740 and 690 nm, respectively. The advantage of a two-dimensional photoncounter for the determination of emission spectra of weak luminescence from large-surface biological samples is discussed.

Original language	English
Pages (from-to)	129-137
Number of pages	9
Journal	Journal of Luminescence
Volume	51
Issue number	1-3
DOIs	https://doi.org/10.1016/0022-2313(92)90025-5
Publication status	Published - 1992 Feb
Externally published	Yes

ASJC Scopus subject areas

Biophysics
Biochemistry
Chemistry(all)
Atomic and Molecular Physics, and Optics
Condensed Matter Physics

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10.1016/0022-2313(92)90025-5

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title = "An application of a two-dimensional photoncounter for the determination of emission spectra of thermoluminescence from photosynthetic systems",

abstract = "Emission spectra of two components of thermoluminescence from photosynthetic systems were measured using a two-dimensional photoncounter. Application of this detector system enormously improved the signal to noise (S/N) ratio and enabled the determination of an emission spectrum of a specific thermoluminescence component. The B-band emitting at 30°C showed an emission spectrum having a single peak at 690 nm, whereas the Z-band emitting at -160°C showed a spectrum having two peaks, the major band at 740 nm and a satellite band at 690 nm. It was revealed that the longer wavelength component arises from photosystem I and the shorter wavelength component from photosystem II. Light harvesting chlorophyll a/b protein complexes (LHCI and LHCII) were also found to emit the Z-band at 740 and 690 nm, respectively. The advantage of a two-dimensional photoncounter for the determination of emission spectra of weak luminescence from large-surface biological samples is discussed.",

author = "Kintake Sonoike and Yorinao Inoue",

note = "Funding Information: The authors acknowledge the financial support by the following grants: a Special Coordination Fund for Development of Time-resolved Fluorescence Microscope and a Grant on Solar Energy Conversion by Means of Photosynthesis, both given by the Science and Technology Agency (STA) of Japan, and MESC Grants-in-Aid for Cooperative Research No. 0132064 and 0130009. K.S. is thankful to Dr. M. Taguchi for her assistance in preparing the manuscript.",

year = "1992",

month = feb,

doi = "10.1016/0022-2313(92)90025-5",

language = "English",

volume = "51",

pages = "129--137",

journal = "Journal of Luminescence",

issn = "0022-2313",

publisher = "Elsevier",

number = "1-3",

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T1 - An application of a two-dimensional photoncounter for the determination of emission spectra of thermoluminescence from photosynthetic systems

AU - Sonoike, Kintake

AU - Inoue, Yorinao

N1 - Funding Information: The authors acknowledge the financial support by the following grants: a Special Coordination Fund for Development of Time-resolved Fluorescence Microscope and a Grant on Solar Energy Conversion by Means of Photosynthesis, both given by the Science and Technology Agency (STA) of Japan, and MESC Grants-in-Aid for Cooperative Research No. 0132064 and 0130009. K.S. is thankful to Dr. M. Taguchi for her assistance in preparing the manuscript.

PY - 1992/2

Y1 - 1992/2

N2 - Emission spectra of two components of thermoluminescence from photosynthetic systems were measured using a two-dimensional photoncounter. Application of this detector system enormously improved the signal to noise (S/N) ratio and enabled the determination of an emission spectrum of a specific thermoluminescence component. The B-band emitting at 30°C showed an emission spectrum having a single peak at 690 nm, whereas the Z-band emitting at -160°C showed a spectrum having two peaks, the major band at 740 nm and a satellite band at 690 nm. It was revealed that the longer wavelength component arises from photosystem I and the shorter wavelength component from photosystem II. Light harvesting chlorophyll a/b protein complexes (LHCI and LHCII) were also found to emit the Z-band at 740 and 690 nm, respectively. The advantage of a two-dimensional photoncounter for the determination of emission spectra of weak luminescence from large-surface biological samples is discussed.

AB - Emission spectra of two components of thermoluminescence from photosynthetic systems were measured using a two-dimensional photoncounter. Application of this detector system enormously improved the signal to noise (S/N) ratio and enabled the determination of an emission spectrum of a specific thermoluminescence component. The B-band emitting at 30°C showed an emission spectrum having a single peak at 690 nm, whereas the Z-band emitting at -160°C showed a spectrum having two peaks, the major band at 740 nm and a satellite band at 690 nm. It was revealed that the longer wavelength component arises from photosystem I and the shorter wavelength component from photosystem II. Light harvesting chlorophyll a/b protein complexes (LHCI and LHCII) were also found to emit the Z-band at 740 and 690 nm, respectively. The advantage of a two-dimensional photoncounter for the determination of emission spectra of weak luminescence from large-surface biological samples is discussed.

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An application of a two-dimensional photoncounter for the determination of emission spectra of thermoluminescence from photosynthetic systems

Abstract

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