Transfer and Trapping of Excitation Energy in Photosystem II
- 1 January 1979
- book chapter
- Published by Wiley
- No. 61,p. 323-364
- https://doi.org/10.1002/9780470720431.ch17
Abstract
This chapter contains section titled: Models for Pigment Systems Transferring and Trapping Excitation Energy Interpretation of Experimental Results A Possible Change in Trapping Properties of the Reaction Centre in State PQ, Caused by Changes in the S-State Acknowledgements References Discussion References General Discussion Some Retrospective Comments Manganese and the Evolution of Oxygen The State of Chlorophyll in Photosystem I, Photosystem II and the Light-Harvesting Unit Grosser Structure of Chlorophyll-Protein Complexes Comparison of the Paillotin-Swenberg Kinetic Theory and the Searle-Tredwell Empirical Treatment ReferencesKeywords
This publication has 29 references indexed in Scilit:
- Fluorescence of Light‐Harvesting Chlorophyll a/b –Protein Complexes: Implications for the Photosynthetic UnitPublished by Wiley ,1979
- Effects of Ions and Gravity Forces on the Supramolecular Organization and Excitation Energy Distribution in Chloroplast MembranesPublished by Wiley ,1979
- The Preparation and Characterization of Different Types of Light–Harvesting Pigmentprotein Complexes from Some Purple BacteriaPublished by Wiley ,1979
- Picosecond Fluorescence from Photosynthetic Systems in vivoPublished by Wiley ,1979
- Tripartite and Bipartite Models of the Photochemical Apparatus of PhotosynthesisPublished by Wiley ,1979
- Dynamics of Excitons Created by a Single Picosecond PulsePublished by Wiley ,1979
- Energy transfer and site of energy trapping in Photosystem IBiochimica et Biophysica Acta (BBA) - Bioenergetics, 1978
- A mathematical analysis of the relation between (bacterio) chlorophyll fluorescence yield and the concentration of reaction centre traps in photosynthesisJournal of Theoretical Biology, 1974
- Random Walks on Lattices. III. Calculation of First-Passage Times with Application to Exciton Trapping on Photosynthetic UnitsJournal of Mathematical Physics, 1969
- AN ABSORPTION BAND NEAR 800 mμ ASSOCIATED WITH P870 IN PHOTOSYNTHETIC BACTERIA*Photochemistry and Photobiology, 1966