Extended phenomenological electrodynamics of dye-solvent mixture

• Autorzy: Hoffmann T. J. , Wróbel D.
• Języki publikacji: EN

Abstrakty

EN

In the paper, the description of dynamics of the electromagnetic fields in dye-solvent mixture in the concept of extended phenomenological electrodynamics is presented. For the description of the structure of material, a phenomenological model of the multi-component body is used. Such a model is based on the following assumptions: 1) a body consists of many homogeneously (ideally mixed) different components and 2) all components are located in each space point occupied by the body. It seems that the dye-solvent mixture fulfils the above phenomenological supposition for the multi-component body. Dynamics of the electromagnetic field has been expressed in the Lagrange-Hamiltonian formalism, and can be used in investigation of the local electromagnetic field in dye-solvent mixture.

Słowa kluczowe

EN

extended phenomenological electrodynamics; electrodynamics; electromagnetics field; phenomenological model

PL

elektrodynamika; pole elektromagnetyczne; model fenomenologiczny

• Wydawca: Instytut Podstawowych Problemów Techniki PAN
• Czasopismo: Journal of Technical Physics
• Rocznik: 2003
• Tom: Vol. 44, no 2
• Strony: 145--151
• Opis fizyczny: Bibliogr. 23 poz.

Twórcy

autor

Hoffmann T. J.

• Institute of Applied Mechanics, Poznań University of Technology

autor

Wróbel D.

• Faculty of Technical Physics, Institute of Physics, Poznań University of Technology

Bibliografia

• 1. GOVINDJEE, Bioenergetics of photosynthesis, Academic Press, New York, San Francisco, London 1975.
• 2. J.H. FENDLER, Membrane mimetic chemistry, Wilely, New York 1985.
• 3. F.T. HONG, Molecular electronics. Biosensors and biocomputers, Plenum Press, New York, London 1989.
• 4. M.R. WASILEWSKI, Chlorophylls, CRC Press, Ch.1.10., Boca Raton, Ann Arbor, Boston, London 1991.
• 5. W.W. PARSON, A. WARSHEL, Anoxoqenic photosynthetic bacteria, Kluwer Academic Publisher, Ch. 25, 1995.
• 6. R.A. MARCUS, On the theory of oxidation-reduction reaction involving electron transfer, I., J. Chem. Phys., 24, 966-978, 1956.
• 7. R.A. MARCUS, On the theory of electron - transfer reaction, VI J. Chem. Phys., 43, 679-701, 1965.
• 8. R.A. MARCUS, R. ALMEIDA, Dynamics of electron transfer for a nonsuperexchange coherent mechanism, J. Phys. Chem., 94, 2973-2977, 1990.
• 9. W.W. PARSON, A. WARSHEL, Theoretical analyses of electron - transfer reaction, [in:] R.E. Blankenship, M.T. Madigan, C.E. Bauer, Anoxygenic photosynthetic bacteria, Kluwer Academic Publisher, pp. 559-575, Amsterdam 1995.
• 10. D. WRÓBEL, T.J. HOFFMANN, Foundations of a thermodynamical of electron transport process in an electrochemical cell, J. Mol. Structure, 555, 419-424, 2000.
• 11. T. HOFFMANN, Extended phenomenological electrodynamics, J. Techn. Phys., 32, 1-15, 1999.
• 12. A.D. JORAN, Molecular electronics. Biosensors and biocomputers, Plenum Press, p. 125, New York, London 1989.
• 13. D. WRÓBEL, J. GOC, R.M. ION, Photovoltaic and spectral properties of tetraphenyloporphyrin and metallotetraphenyloporphyrin dyes, J. Mol. Structure, 450, 239-246, 1998.
• 14. D. WRÓBEL, J. LUKASIEWICZ, A. WASZKOWIAK, Photocurrent generation in an electrochemical cell with substituted metalloporphyrins, J. Mol. Structure, 555, 407-417, 2000.
• 15. T.J. HOFFMANN, D. WRÓBEL, Photoinduced electron transport process in electrochemical cell, I. Phenomenological description, J. Mol. Structure, 450, 155-161, 1998.
• 16. T.J. HOFFMANN AND D. WRÓBEL, Photoinduced electron transport process-quantum description, SPIE, 3725, 174-177, 1999.
• 17. R. BENACH, I. MOLLER, Thermodynamics and the description of magnetizable dielectric mixture of fluids, Arch. Rat. Mech. Anal., 53(4), 312-328, 1974.
• 18. O. COUSSY, Mechanics of porous continua, John Wiley and Sons Ltd. 1995.
• 19. E.M. KOSOWER, Mechanism of fast intramolecular electron-transfer reactions, J. Am. Chem. Soc., 107, 1114-1118, 1985.
• 20. E.M. KOSOWER, D. HUPPERT, Solvent motion controls the rate of intramolecular electron transfer in solution, Chem. Phys. Lett., 96, 433-435, 1983.
• 21. M.A. FOX, Photoinduced electron transfer, Photochem. Photobiol., 52, 617-627, 1990.
• 22. S.E. PETERSON-KENNEDY, J.L. MCGOURTY, B.M. HOFFMAN, Temperature dependence of long- range electron transfer in [Zn,FeIII] hybrid hemoglobin, J. Am. Chem. Soc., 106, 5010-5012, 1984.
• 23. D. WRÓBEL, Resonance Raman spectra of chlorophylls dissolved in liquid crystal matrices I. The reaction between chlorophylls and liquid crystalline MBBA+EBBA mixture, Biophys. Chem., 26, 91-99, 1987.