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Zeitschriftenartikel (945)

  1. 1980
    Erdle, E.; Möhwald, H.: Mini-Excitons and Lattice Dynamics in Mixed CT-Crystals: An ESR, Optical and Raman Spectroscopical Study. Zeitschrift für Naturforschung, A: Physical Sciences 35 (2), S. 236 - 243 (1980)
  2. Möhwald, H.: Statistical Model and Experiments on Low-Dimensional Exciton Transport. Physica Status Solidi B 98 (2), S. 617 - 621 (1980)
  3. 1979
    Erdle, E.; Möhwald, H.: Orientation and dynamics of donor molecules in the CT-crystal naphthalene-TCNB. Chemical Physics 36 (2), S. 283 - 290 (1979)
  4. Luisetti, J.; Möhwald, H.; Galla, H.J.: Monitoring the location profile of fluorophores in phosphatidylcholine bilayers by the use of paramagnetic quenching. Biochimica et Biophysica Acta-Biomembranes 552 (3), S. 519 - 530 (1979)
  5. Luisetti, J.; Möhwald, H.; Galla, H.J.: Spectroscopic and Thermodynamic Studies of Chlorophyll Containing Monolayers and Vesicles Part II: Chlorophyll a and Pheophytin a Aggregation on DMPC Vesicles. Zeitschrift für Naturforschung, C: Journal of Biosciences 34 (5-6), S. 406 - 413 (1979)
  6. 1978
    Erdle, E.; Möhwald, H.: Coupling of rotational modes in a phase transition of a charge-transfer crystal. Solid State Communications 26 (5), S. 327 - 331 (1978)
  7. Heithier, H.; Galla, H. J.; Möhwald, H.: Fluorescence Spectroscopic and Thermodynamic Studies of Chlorophyll Containing Monolayers and Vesicles. Part I: Mixed Monolayers of Pheophytin A and Lecithin. Zeitschrift für Naturforschung, C: Journal of Biosciences 33 (5-6), S. 382 - 391 (1978)
  8. Luisetti, J.; Galla, H. J.; Möhwald, H.: Energy Transfer and Fluorescence Quenching in Chlorophyll Containing Vesicles. Berichte der Bunsen-Gesellschaft 82 (9), S. 911 - 916 (1978)
  9. Möhwald, H.; Erdle, E.; Thaer, A.: Orientational phase transition in a charge-transfer crystal: Triplet excitons as probes for lattice dynamics. Chemical Physics 27 (1), S. 79 - 87 (1978)
  10. Möhwald, H.; Thaer, A.: Raman study of the phase transition in the CT-crystal anthracene-TCNB. Physica Status Solidi A-Applied Research 50 (1), S. 131 - 138 (1978)
  11. Steudle, W.; Von Schütz, J. U.; Möhwald, H.: Optical studies of the 1:1 CT crystal anthracene/TCNB: Mobile triplet excitons at 1.2 K. Chemical Physics Letters 54 (3), S. 461 - 465 (1978)
  12. 1977
    Luisetti, J.; Möhwald, H.; Galla, H. J.: Paramagnetic fluorescence quenching in chlorophyll a containing vesicles: Evidence for the localization of chlorophyll. Biochemical and Biophysical Research Communications 78 (2), S. 754 - 760 (1977)
  13. 1976
    Dalal, N.; Haarer, D.; Bargon, J.; Möhwald, H.: ESR study of the hyperfine structure of the triplet state in crystalline donor acceptor complexes: A probe for the degree of charge transfer in the excited state. Chemical Physics Letters 40 (2), S. 326 - 330 (1976)
  14. Möhwald, H.; Böhm, A.: High resolution esr experiments to determine the electron distribution in charge-transfer triplet states. Chemical Physics Letters 43 (1), S. 49 - 54 (1976)
  15. Möhwald, H.; HAARER, D.: Electron Mobility and Field Induced Trapping in the Charge-Transfer Crystal Phenanthrene-PMDA. Molecular Crystals and Liquid Crystals 32 (1-4), S. 215 - 218 (1976)
  16. Möhwald, H.; Böhm, A.: On Hyperfine and Fine Structure of Excited Charge-Transfer-Complexes. Zeitschrift für Naturforschung, A: Physical Sciences 31 (11), S. 1324 - 1332 (1976)
  17. 1975
    Haarer, D.; Möhwald, H.: Field-Induced Charge-Carrier Trapping in the Photoconduction of a Quasi One-Dimensional System: Phenanthrene-Pyromellitic Acid Dianhydride. Physical Review Letters 34 (23), S. 1447 - 1450 (1975)
  18. Möhwald, H.; Haarer, D.; Castro, G.: Electron mobility in the 1:1 charge-transfer crystal phenanthrene-PMDA. Chemical Physics Letters 32 (3), S. 433 - 437 (1975)
  19. 1974
    Möhwald, H.; Sackmann, E.: Localized excited triplet-states in mixed charge-transfer single-crystals - formation of excited multicomplexes. Chemical Physics Letters 26 (4), S. 509 - 513 (1974)
  20. Möhwald, H.; Sackmann, E.: Phase transition and triplet exciton mobility in anthracene—tetracyanobenzene charge-transfer single crystals. Solid State Communications 15 (3), S. 445 - 448 (1974)
 
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