Georges H. Wagnière / Publications

This article is an overview of the publications of the chemist Georges H. Wagnière .

Publications

1. For the interpretation of the UV absorption spectra of β, γ-unsaturated ketones. H. Labhart and G. Wagnière, Helv. Chim. Acta 42, 2219 (1959).
2. Bond alternation in cycloöctadecanonaene. M. Gouterman and G. Wagnière, Tetrahedron Letters 11, 22 (1960).
3. Dynamic aspects of bond alternation in cyclic polyenes. M. Gouterman and G. Wagnière, J. Chem. Phys. 36, 1188 (1962).
4. A perimeter model for the magnetic properties of some non-benzenoid aromatic hydrocarbons. G. Wagnière and M. Gouterman, Mol. Phys. 5, 621 (1962).
5. Spectra of porphyrins. Part II. Four orbital model. M. Gouterman, G. Wagnière and L. Snyder, J. Mol. Spectroscopy 11, 108 (1963).
6. Experimental and theoretical investigation of the excited electronic states of some substituted benzenes. H. Labhart and G. Wagnière, Helv. Chim. Acta 44, 1314 (1963). Correction: Helv. Chim. Acta 51, 204 (1968).
7. On the evaluation of some dipole velocity integrals. G. Wagnière and H. Labhart, J. Chem. Phys. 39, 2386 (1963).
8. An attempt to predict the relative resonance stabilization of some non-benzenoid π-electron systems with the perimeter model. G. Wagnière, Theoret. Chim. Acta 2, 281 (1964).
9. Is the molecule Cyclohepta [def] fluorene a biradical? P. Baumgartner, E. Weltin, G. Wagnière and E. Heilbronner, Helv. Chim. Acta 48, 751 (1965).
10. Paris-Parr-Pople calculations with σ and π base orbitals. M. Jungs, H. Labhart and G. Wagnière, Theoret. Chim. Acta 4, 305 (1966).
11. On the optical activity of ketones perturbed in front octants. G. Wagnière, J. Am. Chem. Soc. 88, 3937 (1966).
12. Molecule and model presentation (inaugural lecture at the University of Zurich). G. Wagnière, Scientist Part of the Neue Zürcher Zeitung, July 17, 1966.
13. Semi-empirical calculations on triplet and doublet states. G. Wagnière, Theoret. Chim. Acta 9, 312 (1968).
14. Electronic states of perimeter 9 systems. IV: The electronic spectrum of [18] annulene. H. Blattmann, E. Heilbronner and G. Wagnière, J. Am. Chem. Soc. 90: 4786 (1968).
15. Theoretical aspects of the C-NO and C-NO2 bonds. G. Wagnière, In The Chemistry of the Nitro and Nitroso Group. Ed. H. Feuer, Interscience Publishers, 1969, Chap. 1.
16. The importance of physics for the development of chemistry and molecular biology. G. Wagnière. Part of the lecture series “The Problem of Progress Today”, winter semester 1967/68; published in book form by Wissenschaftliche Buchgesellschaft, Darmstadt, 1969, Chapter 7.
17. Semiempirical calculations on 2,3-homofulvene. W. Hug and G. Wagnière, Tetrahedron 25, 631 (1969).
18. For the interpretation of the UV spectrum of pyridine-N-oxide. K. Seibold, G. Wagnière and H. Labhart, Helv. Chim. Acta 52, 789 (1969).
19. Calculations on charge transfer complexes. R. Geiger and G. Wagnière, Chimia 24, 37 (1970).
20. The calculation of optical activity with semi-empirical wave functions. W. Hug and G. Wagnière, Chimia 24, 37 (1970).
21. Molecular orbital calculations of rotational strengths: A study of skewed diketones. W. Hug and G. Wagnière, Theoret. chim. Acta 18: 57 (1970).
22. On the optical activity of some aromatic systems: Hexahelicene, heptahelicene and [n, n] -vespirene. G. Wagnière. In "Aromaticity, pseudo-aromaticity, anti-aromaticity", The Jerusalem Symposia on Quantum Chemistry and Biochemistry III. The Israel Academy of Sciences and Humanities, 1971, p. 127.
23. Polarization and the sign of the long-wavelength cotton effects in chromophores of symmetry C2. G. Wagnière and W. Hug, Tetrahedron Letters 4765 (1970).
24. The optical activity of chiral dienes, enones, and α-diketones. W. Hug and G. Wagnière, Helv. Chim. Acta 54, 633 (1971).
25. n → π * transitions in dicarbonyl compounds. The influence of the n, n and π *, π * interaction. W. Hug, J. Kuhn, KJ Seibold, H. Labhart and G. Wagnière, Helv. Chim. Acta 54, 1451 (1971).
26. The electronic structure of simple nitrogen- and oxygen-containing compounds. J. Kuhn, W. Hug, R. Geiger and G. Wagnière, Helv. Chim. Acta 54, 2260 (1971).
27. The optical activity of chromophores of symmetry C2. W. Hug and G. Wagnière, Tetra-hedron 28, 1241 (1972).
28. The conformation and chirality of α-diketones. W. Hug and G. Wagnière, Helv. Chim. Acta 55: 634 (1972).
29. Application of wave mechanics to the study of natural optical activity in organic molecules. Rudolf E. Geiger and Georges H. Wagnière. In "Wave mechanics, the first fifty years", ed. WC Price et al., Butterworths, London, 1973, Chap. 18, p. 292.
30. On the electronic structure of N2H2. A possible triplet ground state in diazines. G. Wagnière, Theoret. Chim. Acta, 31, 269 (1973).
31. The MO-theoretical description of optical properties in polymers. Selection rules due to cyclic symmetry. G. Wagnière and R. Geiger, Helv. Chim. Acta 56, 2706 (1973).
32. General and theoretical aspects of the carbon-halogen bond. G. Wagnière. In “The Chemistry of the Carbon-Halogen Bond”, Part I, S. Patai ed., John Wiley, London 1973, Chap. 1.
33. MO-theoretical investigations on the optical activity of cyclic dipeptides (diketopiperazines). R. Geiger and G. Wagnière, Chimia 29, 21 (1975).
34. About the conformation of bilirubin and biliverdin in complex with serum albumin. G. Blauer and G. Wagnière, Chimia 29, 20 (1975).
35. The optical activity of the amide chromophore, I. MO-theoretical calculation of the long-wavelength optical activity of γ-lactams and of related isoelectronic molecules. R. Geiger and G. Wagnière, Helv. Chim. Acta 58,738 (1975).
36. Conformation of bilirubin and biliverdin in their complex with serum albumin. G. Blauer and G. Wagnière, J. Am. Chem. Soc. 97, 1949 (1975).
37. The electronic structure of C-nitroso compounds. V. Bhujle, UP Wild, H. Baumann and G. Wagnière, Tetrahedron 32, 467 (1976).
38. Introduction to elementary molecular orbital theory and to semi-empirical methods. G. Wagnière. Vol. I of the Series "Lecture Notes in Chemistry", Springer Verlag, 1976, 109 p.
39. Calculations of optical properties of biliverdin in various conformations. G. Wagnière and G. Blauer, J. Am. Chem. Soc. 98, 7806 (1976).
40. MO calculation of the optical activity of oligopeptides. I. Computational procedure and application to small helices. G. Wagnière, M. Iseli, R. Geiger and W. Gans, Helv. Chim. Acta 60, 1831 (1977).
41. Description of the chiroptic properties of small peptides by a molecular orbital method. M. Iseli, R. Geiger and G. Wagnière. In "Excited States in Organic Chemistry and Biochemistry", B. Pullmann and N. Goldblum eds., Reidel Publishing Co., Dordrecht, 1977, p. 137.
42. MO calculation of the optical activity of oligopeptides. II. Open-chain conformations. Comparison with some cyclic systems. M. Iseli, R. Geiger and G. Wagnière, Helv. Chim. Acta 61, 171 (1978).
43. Possible interpretation of long-wavelength spectral shifts in phytochrome Pr and Pfr forms. R. Pasternak and G. Wagnière, J. Am. Chem. Soc. 101, 1662 (1979).
44. Electronic properties and optical activity of oligopeptides. III. Some cyclohexapeptides with glycine, L- and D-alanine. M. Iseli and G. Wagnière, JG Brahms and S. Brahms, Helv. Chim. Acta 62, 921 (1979).
45. A theoretical analysis of two-photon magnetic circular dichroism. G. Wagnière, Chem. Phys. 40, 119 (1979).
46. Classification of the CD spectra of carotenoids. V. Sturzenegger, R. Buchecker and G. Wagnière, Helv. Chim. Acta 63, 1074 (1980).
47. A theoretical analysis of three-wave mixing in an optically active medium. G. Wagnière, Chem. Phys. 54: 411 (1981).
48. Circular difference three-wave mixing in a static magnetic field. G. Wagnière, Chem. Phys. Lett. 79: 275 (1981).
49. Semiempirical spin-orbit coupling calculations. I. Theory and method. Benzophenones as a test case. R. Pasternak and G. Wagnière, J. Comput. Chem. 2, 347 (1981).
50. The evaluation of three-dimensional rotational averages. G. Wagnière, J. Chem. Phys. 76, 473 (1982).
51. Optical activity of higher order in a medium of randomly oriented molecules. G. Wagnière, J. Chem. Phys. 77, 2786 (1982).
52. Investigation of the structure and conformation of pigments bound to proteins by UV / VIS and CD measurements: The example of the bile pigments. G. Wagnière. In “Structure of Complexes between Biopolymers and Low-Molecular-Weight Molecules”, ed. W. Bartmann and G. Snatzke; John Wiley & Sons, London 1982, p. 173.
53. The influence of a static magnetic field on the absorption coefficient of a chiral molecule. G. Wagnière and A. Meier, Chem. Phys. Lett. 93, 78 (1982).
54. Difference in the absorption coefficient of enantiomers for arbitrarily polarized light in a magnetic field: A possible source of chirality in molecular evolution. G. Wagnière and A. Meier, Experientia 39, 1090 (1983).
55. From atomic order to molecular diversity. G. Wagnière. Lecture cycle "Self-organization of matter?" Collegium Generale University of Bern, Verlag Peter Lang Bern, 1984.
56. G. Wagnière: The influence of a static magnetic field on the optical properties of chiral molecules. In: Journal of Nature Research A . 39, 1984, pp. 254-261 ( PDF , free full text).
57. Magnetochiral dichroism in emission. Photoselection and the polarization of transitions, G. Wagnière, Chem. Phys. Lett. 110: 546 (1984).
58. Preparation of organic nonlinear optical materials for second harmonic generation. CW Dirk, RJ Twieg and G. Wagnière. US Dep. of Commerce, National Bureau of Standards, NBS Special Publication 697, "OM 85 Basic Properties of Optical Materials," 1985.
59. The contribution of π electrons to second harmonic generation in organic molecules. CW Dirk, RJ Twieg and G. Wagnière, J. Am. Chem. Soc. 108: 5387 (1986).
60. Theoretical investigation of Kleinman symmetry in molecules. G. Wagnière, J. Appl. Phys. B 41, 169 (1986).
61. The long-wavelength MCD of some quinones and its interpretation by semiempirical MO methods. A. Meier and G. Wagnière, Chem. Phys. 113: 287 (1987).
62. Magnetochiral dichroism as a measure of parity nonconservation in an atomic system. G. Wagnière, Z. Phys. D 8, 229 (1988).
63. Nonlinear optical properties of organic molecules: A theoretical study with semi-empirical methods. J. Hutter and G. Wagnière, J. Mol. Struct. 175: 159 (1988).
64. Theoretical considerations on second-order nonlinearities of organic molecules. G. Wagnière and J. Hutter. Optical Soc. of America 1988, Technical Digest Series Vol. 9, 3 (August 1988, Troy, New York).
65. Second-harmonic generation in quinquethienyl monolayers. G. Marowsky, R. Steinhoff, LF Chi, J. Hutter, and G. Wagnière, Phys. Rev. B 38, 6274 (1988).
66. Theoretical and computational aspects of the nonlinear optical properties of molecules and molecular clusters. G. Wagnière and J. Hutter, J. Opt. Soc. At the. B 6, 693 (1989).
67. Inverse magnetochiral birefringence. G. Wagnière, Phys. Rev. A 40, 2437 (1989).
68. Investigation by MCD of the low-lying electronically excited states of some selected quinoid diones. J. Frei, H. Yamaguchi, J. Tsunetsugu and G. Wagnière, J. Am. Chem. Soc. 11: 1413 (1990).
69. Frequency-dependent electric polarization due to optical rectification: Computer simulation and semiclassical theory. MW Evans and G. Wagnière, Phys. Rev. A 42, 6732 (1990).
70. Role of molecular symmetry in inverse magnetochiral birefringence. S. Woźniak, G. Wagnière and R. Zawodny, Phys. Letters A 154: 259 (1991).
71. Molecular dynamics computer simulation of non-linear optical effects; electric polarization due to optical rectification in a circularly polarized laser. MW Evans, G. Wagnière and S. Woźniak, Physica B 173, 357 (1991).
72. Generalized Langevin-Kielich functions for the optical Kerr effect in liquid water: Theory and simulation. MW Evans, S. Woźniak and G. Wagnière, Physica B 175, 412 (1991).
73. Optically induced static magnetization near optical resonances in molecular systems.1. Inverse Faraday effect. S. Woźniak, MW Evans and G. Wagnière, Mol. Phys. 75.81 (1992).
74. Optically induced static magnetization near optical resonances in molecular systems. 2. Inverse magnetochiral birefringence. S. Woźniak, MW Evans and G. Wagnière, Mol. Phys. 75, 99 (1992).
75. Field applied molecular dynamics (FMD) simulation of the inverse Faraday effect. MW Evans, S. Woźniak and G. Wagnière, Physica B 176, 33 (1992).
76. Field applied molecular dynamics (FMD) computer simulation of circular dichroism and optical rotatory dispersion. MW Evans, S. Woźniak and G. Wagnière, Physica B 179, 133 (1992).
77. The far-infrared molecular dynamics of circular dichroism and optical rotatory dispersion. MW Evans, S. Woźniak and G. Wagnière, Physics Letters A 171, 355 (1992).
78. Chiral media for ultrafast modulation of light by light. K.-E. Süsse, S. Woźniak and G. Wagnière, Optics Commun. 100, 374 (1993).
79. Linear and Nonlinear Optical Properties of Molecules. G. Wagnière, Monograph, 195 p., Verlag Helvetica Chimica Acta / Verlag Chemie, 1993.
80. Non-resonant optical rectification in optically active liquids. S. Woźniak and G. Wagnière, Optics Commun. 114: 131 (1995).
81. On second harmonic generation by two noncollinear beams in transparent chiral liquids. R. Zawodny and G. Wagnière, Optics Commun. 123, 665 (1996).
82. Optically induced DC magnetization in a Kerr medium with dissipation. R. Zawodny and G. Wagnière, Proc. Int. Soc. Opt. Eng. SPIE 2800: 166 (1996).
83. On optical rectification in chiral liquids near optical resonance. R. Zawodny, S. Woźniak and G. Wagnière, Optics Commun. 130: 163 (1996).
84. On quadratic dc magnetic field-induced circular birefringence and dichroism in isotropic chiral media. R. Zawodny, S. Woźniak and G. Wagnière, Mol. Phys. 91, No. 2, 165-172 (1997).
85. Interferometric detection of magnetochiral birefringence. P. Kleindienst and G. Wagnière, Chem. Phys. Lett. 288: 89-97 (1998).
86. Optically induced second harmonic generation in chiral liquids. S. Woźniak and G. Wagnière, Optics Commun. 151: 81-85 (1998).
87. On magnetic dipole and electric quadrupole contributions to optical rectification intransparent crystals. R. Zawodny and G. Wagnière, Optics Commun. 151: 160 (1998).
88. The magnetochiral effect and related optical phenomena. G. Wagnière, Chem. Phys. 245: 165 (1999).
89. Electronic Spectroscopy (Theory): Nonlinear Optical Properties. G. Wagnière and S. Woźniak, Encyclopedia of Spectroscopy and Spectrometry, Academic Press, 1999.
90. Lifting of magnetic degeneracy in a parity-nonconserved atom by arbitrarily polarized light. G. Wagnière, Am. J. Phys. 68: 192 (2000).
91. The magnetochiral birefringence in diamagnetic solutions and in uniaxial crystals.N. Kalugin, P. Kleindienst and G. Wagnière, Chem. Phys. 248, 105 (1999).
92. Nanochemistry. HF Siegenthaler, G. Wagnière, LF Trueb, surfaces / Polysurfaces 42, 16 (2001).
93. Pick-up coil detection of the inverse Faraday effect in Tb-doped aluminum-boron-silicate glass. NG Kalugin and G. Wagnière, J. Opt. B: Quantum Semiclass. Opt. 3, S189 (2001).
94. Magnetic Circular Dichroism of the Long-Wavelength π-π * Transitions in Nitrogen-Containing Heteroconjugated Aromatic Compounds and in Selected Ruthenium Complexes. P. Kleindienst, P. Belser and G. Wagnière, Helv. Chim. Acta 86, 950 (2003).
95. Magneto-dynamics of chiral carbon nanotubes. V. Krstić, G. Wagnière and GLJA Rikken, Chem. Phys. Lett. 390: 25 (2004).
96. Light induced dynamic magnetochiral anisotropy. GLJA Rikken, BA van Tiggelen, V. Krstić and G. Wagnière, Chem. Phys. Lett. 403, 298 (2005).
97. On the chirality of torus curves and knots. Georges H. Wagnière, J. Math. Chem. 41, 27 (2007) (Online first 2006).
98. On Chirality and the Universal Asymmetry - Reflections on Image and Mirror Image. Georges H. Wagnière. Monograph. 247p. VHCA - Wiley - VCH, Zurich, 2007; 247 p.
99. Chirality and magnetism: Free electron on an infinite helix, NCD, MCD, and magnetochiral dichroism. Georges H. Wagnière and Geert LJA Rikken, Chem. Phys. Lett. 481: 166 (2009).
100. Chirality and magnetism II: Free electron on an infinite helix, inverse Faraday effect and inverse magnetochiral effect. Georges H. Wagnière and Geert LJA Rikken, Chem. Phys. Lett. 502, 126 (2011).
101. Comprehensive Chiroptical Spectroscopy. N. Berova, PL Polavarapu, K. Nakanishi, RW Woody, Editors. Volume One. Part I. Introduction: On the interaction of light with molecules: Pathways to the theoretical interpretation of chiroptical phenomena. Georges H. Wagnière. John Wiley & Sons, Inc., 2012, pp 3-34.
102. Polarization-independent magnetic control of the light phase in a chiral optical fiber. Georges H. Wagnière, Optics Communications 285 (2012) 4344-4346.
103. Magnetochiral control of the light phase II: Proposal for a polarization-independent phase shifter. Georges H. Wagnière, Optics Communications 322 (2014) 129-130.