Schödel, René: Zur Kinetik von Singulett- und Triplett-Anregungen im Lichtsammelkomplex des Photosystems II höherer Pflanzen (LHCII).

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120

Veröffentlichungen im Rahmen dieser Arbeit

Bereits erschienene Arbeiten:

Schödel, R., J. Voigt, G. Kehrberg. 1994. Non-linear fluorescence yield of photosystem 2 subunits of higher plants. Photosynthetica 30:613-622.

Schödel, R., K.-D. Irrgang, J. Voigt and G. Renger. 1995. Normalized fluorescence yield as a function of laser pulse intensity in the light harvesting complex of photosystem II of higher plants and chlorophyll a in solution. Proc. IX. Intern. Symposium, Ultrafast Processes in Spectroscopy, Trieste 1995.

Voigt, J., T. Renger, R. Schödel, T. Schrötter, J. Pieper, and H. Redlin. 1996. Excitonic effects in the light harvesting complex of higher plants. Phys. Stat. Sol.(b) 194:333.

Schödel, R., F. Hillmann, T. Schrötter, K.-D. Irrgang, J. Voigt and G. Renger. 1996. Kinetics of excited states of pigment clusters in solubilized light-harvesting complex II: Photon density-dependent fluorescence yield and transmittance. Biophys. J. 71:3370-3380.

Schödel, R., K.-D. Irrgang, J. Voigt and G. Renger. 1998. Rate of Carotenoid triplet formation in solubilized Light harvesting complex II (LHCII) from spinach. Biophys. J. 75:3143-3153.

Schödel, R., K.-D. Irrgang, J. Voigt and G. Renger. 1999. Quenching of chlorophyll fluorescence by triplets in solubilized Light-Harvesting Complex II (LHCII). Biophys. J. 76:2238-2248.

In Vorbereitung:

Schödel, R., K.-D. Irrgang, J. Voigt and G. Renger. 1999. Singlet and Triplet Quenching Processes in solubilized LHCII - Theoretical description by Master Equations.


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