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HERMANN RALI

                  23. Rau, H., Greiner, G., Gauglitz, G., and Meier, H. (1990). Photochemical quantum yields in
                     the A (+hv) <=> B (+hv, A) system when only the spectrum of A is known. /. Phys. Chem,
                     94, 6523-6524.
                  24. Kuhn, H., Braslavsky, S. E., and Schmidt, R. (1989). Chemical Aetinometry. Pure Appl.
                     Chem. 61,187-210.
                  25. Gauglitz, G. (1990). Actinometry. In Photochromism. Molecules and Systems (H. Diirr and
                     H. Bouas-Laurent, Eds.), Chapter 25, pp. 883-902. Elsevier, Amsterdam.
                  26. Gauglitz, G., and Hubig, S. (1985). Chemical actinometry in the UV by azobenzene in
                     concentrated solution: a convenient method./. Photochem. 30, 121-125.
                  27. Gauglitz, G., and Hubig, S. (1981). Azobenzene as a convenient actinometer: evaluation
                     values for UV mercury lines and for the N2 laser line. /. Photochem, 15, 255-257.
                  28. Shen, Y.-Q., and Rau, H. (1991). The environmentally controlled photoisomerization of
                     probe molecules containing azobenzene moieties in solid poly(methylmethacrylate).
                     Makromol. Chem. 192, 945-957.
                  29. Lamarre, L., and Sung, C. S. P. (1983). Studies of physical aging and molecular motion
                     by azochromophoric labels attached to the main chains of amorphous polymers.
                     Macromolecules 16, 1729-1736.
                  30. See Chapter 2 of this monograph.
                  31. (1983) Glossary of Terms Used in Physical Organic Chemistry. Pure Appl. Chem., 55,
                     1281-1371.
                  32. Zimmerman, G., Chow, L.-Y., and Paik, U.-J. (1958). The photochemical isomerization of
                     azobenzene. /. Am. Chem. Soc. 80, 3528-3531.
                  33. Rau, H. (1984). Some useful formulae for the evaluation of the A *? B photoreaetion
                     system. EPA Newsletter, 21, 31-32.
                  34. Rau, H. (1984). Further evidence for rotation in the n,n*- and inversion in the n,jc*~pho~
                     toisomerization of azobenzenes. /. Photochem. 26, 221-225.
                  35. Fischer, E. (1967). The calculation of photostationary states in systems A *£ B when only
                     A is known. /. Phys. Chem. 71, 3704-3706.
                  36. Rau, H., and Greiner, G. (1991). Determination of Quantum Yields of the X/Y
                     Isomerization System from Spectroscopic Data. EPA Newsletter 41, 40-55.
                  37. Mauser, H. (1974). Formate Kinetik. Bertelsmann Universitatsverlag, Diisseldorf.
                  38. Mauser, H. (1968). Zur Theorie der isosbestischen Punkte. Z. Naturforsch. 23b,
                     1021-1025.
                  39. Mauser, H. (1968). Zur spektroskopischen Untersuchung der Kinetik chemiseher
                     Reaktionen. II. Extinktionsdifferenzen-Diagramme. Z. Naturforsch. 23b, 1025-1030.
                  40. Ritter, G., Hafelinger, G,, Liiddecke, E,, and Rau, H. (1989). Tetrazetidine: Ab-initio calcu-
                     lations and experimental approach./. Am, Chem. Soc, 111, 4627-4635. Appendix.
                  41. Blume, R., and Polster, J. (1975). New methods for spectrophotometric determination of
                     pK values. III. Titration of trivalent protolytes. Z. Naturforsch. 30b, 358-372.
                  42. Koile, U., Schatzle, H., and Rau, H. (1980). Molecular probes; Photoisomerization of opti-
                     cally active azo compounds. Photochem. Photobiol. 32, 305-311.
                  43. DMS UV Atlas of Organic Compounds. Verlag Chernie, Weinheim. 1966-1971. Spectrum
                     C7/5. Solvent is hexane.
                  44. Rau, H. (1968). Uber die strahtungslose Desaktivierung von Azoverbindungen und die
                     Lichtechtheit von Azofarbstoffen. Ber. Bunsenges. Physik. Chem. 72, 408-414.
                  45. Hochstrasser, R. M., and Lower, S. K. (1962). Polarization of the spectra of crystalline
                     azobenzene and mixed crystals of azobenzene in stilbene at 77° and 4.2° K in the region of
                     the lowest n -> it* transition. /. Chem. Phys. 36, 3505-3506.
                  46. Rau, H. (1961). Ober die Bandenstruktur der Spektren von Azoverbindungen.
                     Diplomarbeit, Tubingen.
                  47. Rau, H. (1970). Uber einige spektroskopische Eigenschaften der Azogruppe. Habifita-
                     tionsschrift Tubingen.
                 48. Bisle, H., Romer, M., and Rau, H. (1976). Der Einflufi der Kopplung von HIMI*)- und
                     1
                      (71,71*) Zustanden auf die Fluoreszenzfahigkeit von Azobenzolen. Ber. Bunsenges. Physik.
                     Chem. 80, 301-305.
                 49. Rau, H., and Shen, Y. Q. (1988). Photoisomerization of sterically hindered azobenzenes. /.
                     Photochem. Photobiol. A: Chemistry 42, 321-327.
                 50. Tamaoki, N., Ogata, K., Koseki, K., and Yamaoka, T. (1990). [2.2](4,4')Azobenzeno-
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