M. Hargittai, I. Hargittai - Symmetry through the Eyes of a Chemist (793765), страница 78
Текст из файла (страница 78)
128, plate III, Manchester1808.D. Hodgkin, “Moments of Discovery.” Kristallografiya (Sov. Phys. Crystallogr.) 1981, 26, 1029–1045.Dalton, A New System of Chemical Philosophy, p. 128.Hodgkin, Kristallografiya (Sov. Phys. Crystallogr.) 1029–1045.Kitaigorodsky, Molecular Crystals; A. F. Wells, Structural Inorganic Chemistry, Fifth Edition, Clarendon Press, Oxford, 1984.Wells, Structural Inorganic Chemistry.Ibid.Ibid.Shubnikov, Koptsik, Symmetry in Science and Art.Ibid.Ibid.G. G. Szpiro, Kepler’s Conjecture: How Some of the Greatest Minds in HistoryHelped Solve One of the Oldest Math Problems in the World.
Wiley, Hoboken,New Jersey, 2003.K. W. Adolph, D. L. D. Caspar, C. J. Hollingshed, E. E. Lattman,W. C. Phillips, W. T. Murakami, “Polyoma Virion and Capsid Crystal Structures.” Science 1979, 203, 1117–1120.Ibid.R. B. Fuller, Synergetics: Explorations in the Geometry of Thinking,Macmillan, New York, 1975; p. 37.D. L. D. Caspar, A. Klug, “Physical Principles in the Construction of RegularViruses.” Cold Spring Harbor Symposia on Quantitative Biology 1962, 27,1–24.R. E. Benfield, B.
F. G. Johnson, “The Structures and Fluxional Behaviourof the Binary Carbonyls—A New Approach. 2. Cluster Carbonyls Mm (CO)n(n = 12,13,14,15, or 16).” J. Chem. Soc. Dalton Trans. 1980, 1743–1767.A. L. Mackay, “A dense non-crystallographic packing of equal spheres.” ActaCrystallogr. 1962, 15, 916−918.References49952. K. H. Kuo, “Mackay, Anti-Mackay, Double-Mackay, Pseudo-Mackay, andRelated Icosahedral Shell Clusters.” Struct. Chem. 2002, 13, 221–230.53. Mackay, Acta Crystallogr. 916−918.54.
Wells, Structural Inorganic Chemistry.55. Ibid.56. See, e.g., B. C. Chakoumakos, R. J. Hill, G. V. Gibbs, “A MolecularOrbital Study of Rings in Silicates and Siloxanes.” Am. Mineral. 1981, 66,1237–1249.57. Wells, Structural Inorganic Chemistry.58. Ibid.59. L. Pauling, The Nature of the Chemical Bond, Third Edition, Cornell University Press, Ithaca, NY, 1960.60. W.
Barlow, “Geometrische Untersuchung über eine mechanische Ursuche derHomogenitaet der Struktur und der Symmetrie.” Z. Krist. 1898, 29, 433–588.61. Pauling, The Nature of the Chemical Bond.62. J. Bernstein, “Effects of Crystal Environment on Molecular Structure.” InAccurate Molecular Structures. Their Determination and Importance, A.Domenicano and I. Hargittai, eds., Oxford University Press, Oxford, 1992, pp.469–497; I. Hargittai, J. B. Levy, “Accessible Geometrical Changes.” Struct.Chem. 1999, 10, 387–389; V. Horváth, I.
Hargittai, “Geometrical Changesand Their Energies in the Formation of Donor–Acceptor Complexes.” Struct.Chem. 2004, 15, 233–236.63. Kitaigorodsky, Molecular Crystals.64. Ibid.65. Lucretius, The Nature of Things (De rerum natura). First edition, translated byF. O. Copley. W. W. Norton & Co., New York, 1977. This passage is quotedfrom Book VI, lines 1084–1086, p. 72.66. Lord Kelvin, Baltimore Lectures on Molecular Dynamics and the WaveTheory of Light, Appendix H. C. J. Clay & Sons, London, 1904, pp.
618–619.67. I. Hargittai, “Symmetry in Crystallography.” Acta Crystallogr. 1998, A54,697–706; M. Hargittai, “Symmetry, crystallography, and art.” Appl. Phys. A2007, 89, 889–898.68. Lord Kelvin, Baltimore Lectures on Molecular Dynamics and the WaveTheory of Light, pp. 618–619.69. A. I. Kitaigorodsky, in Advances in Structure Research by DiffractionMethods, R. Brill, R. Mason, eds., Vol.
3, p. 173, Pergamon Press, Oxford,etc., Friedr. Vieweg and Sohn, Braunschweig, 1970.70. F. Wudl, E. T. Zellers, “2,5-Di-N-Chlorothioimino-3,4-Dicyanothiophene –A Novel Monomer of Unusual Molecular and Solid-State Structure” J. Am.Chem. Soc. 1980, 102, 4283–4284.71. F. Wudl, E. T. Zellers, “1,1-Dichloro-2,5-Bis(N-Chlorothioimino)-3, 4Dicyanoselenophene” J.
Am. Chem. Soc. 1980, 102, 5430–5431.72. C. H. MacGillavry, Symmetry Aspects of M. C. Escher’s Periodic Drawings,Bohn, Scheltema and Holkema, Utrecht, 1976.5009 Crystals73. L. Pauling, M. Delbrück, “The Nature of the Intermolecular Forces Operativein Biological Processes.” Science 1940, 92, 77–79.74. Ibid., p.
78.75. Linus Pauling’s Sir Jesse Boot Foundation Lecture titled “Molecular Architecture and the Process of Life” in Nottingham, England, 1948, is quoted byJ. D. Dunitz, “Linus Carl Pauling, February 28, 1901-August 19, 1994.” InBiographical Memoirs, vol. 71, National Academy Press, Washington, DC,1997, p. 236.76.
A. I. Kitaigorodskii, “The Close-Packing of Molecules in Crystals of OrganicCompounds.” J. Phys. (USSR) 1945, 9, 351–352.77. Ibid. J. Phys. (USSR) was an English-language periodical at one time in theSoviet Union.78. P. M. Zorky, “The Development of Organic Crystal Chemistry at the MoscowState University.” ACH—Models in Chemistry 1993, 130, 173–181.79. H.
A. Stuart, “Über neue Molekülmodelle.” Z. Phys. Chem. (B) 1934, 27,350–358; G. Briegleb, Fortschr. chem. Forsch. 1950, 1, 642.80. Kitaigorodsky, Molecular Crystals; Kitaigorodsky, Advances in StructureResearch.81. A. Gavezzotti, G. R. Desiraju, “A Systematic Analysis of Packing Energiesand other Packing Parameters for Fused-Ring Aromatic Hydrocarbons.” ActaCrystallogr. B 1988, 44, 427–434.82. J.-M. Lehn, “Supramolecular Chemistry.” Science 1993, 260, 1762–1763.83.
G. D. Andreetti, A. Pochini, R. Ungaro, “Molecular Inclusion in Functionalized Macrocycles. 6. The Crystal and Molecular-Structures ofthe Calix[4]arene from Para-(1,1,3,3-Tetramethylbutyl)Phenol and Its 1-1Complex with Toluene.” J. Chem. Soc. Perkin Trans II 1983, 1773–1779;G. D. Andreetti, F. Ugazzoli, in Calixarenes: A Versatile Class of MacrocyclicCompounds, J. Vicens and V. Böhmer, eds. Kluwer, Dordrecht, 1991.84. Andreetti, Ugazzoli, in Calixarenes: A Versatile Class of MacrocyclicCompounds.85. J.-M.
Lehn, “Supramolecular Chemistry—Receptors, Catalysts, andCarriers.” Science 1985, 227, 849–856.86. J. D. Dunitz, in Host-Guest Molecular Interactions: From Chemistry toBiology, D. J. Chadwick and K. Widdows, eds., John Wiley & Sons, Chichester, 1991, p. 92.87. Kitaigorodsky, Molecular Crystals; Kitaigorodsky, Advances in StructureResearch.88. Kitaigorodsky, Molecular Crystals.89. Ibid.90.
Ibid.91. Ibid.92. Ibid.93. Ibid.94. Ibid.95. See, e.g., K. Mirsky, “Early Days in the Atom−Atom Potential Approachto Intermolecular Interactions.” ACH—Models in Chemistry 1993, 130,References96.97.98.99.100.101.102.103.104.105.106.107.108.109.110.111.112.113.114.115.501197−204; A. Gavezzotti and G. Filippini, “The Crystal Packing of Chlorineand Sulfur-Containing Compounds.” ACH—Models in Chemistry 1993, 130,205−220, and references therein.J. Maddox, “Crystals from 1st Principles.” Nature 1988, 335, 201.D.
Braga and F. Grepioni, “Molecular Self-Recognition and Crystal Buildingin Transition-Metal Carbonyl Clusters—The Cases of Ru3 (CO)12 andFe3 (CO)12 .” Organometallics 1991, 10, 1254–1259.Ibid.Mirsky, ACH—Models in Chemistry, 197−204; Gavezzotti, Filippini, ACH—Models in Chemistry, 205−220.Zorky, ACH—Models in Chemistry, 173−181.I. Hargittai, M. Hargittai, In Our Own Image: Personal Symmetry inDiscovery. Plenum/Kluwer, New York, 2000, p. 112.See, e.g., P.
M. Zorky, E. E. Dashevskaya, “Hypersymmetry in Polysystem(Particularly in Multisystem) Molecular Crystals.” ACH—Models in Chemistry 1993, 130, 247−259; P. M. Zorky, O. N. Zorkaya, “Specific Intermolecular Interactions in Organic Crystals: Conjugated Hydrogen Bonds andContacts of Benzene Rings.” In M. Hargittai, I. Hargittai, eds., Advances inMolecular Structure Research, Vol. 3, 1997, pp. 147−188.P. M. Zorky, V. A. Koptsik, in Sovremennie Problemi Fizicheskoi Khimii, Ya.I.
Gerasimov, P. A. Akishin, eds., Izd. Moskov. Univ., Moscow, 1979.See, e.g., the special thematical issue devoted to the memory of P. M. Zorkyin Structural Chemistry 2007.Kitaigorodsky, in Advances in Structure Research by Diffraction Methods.T. P. Martin, “Alkali-Halide Clusters and Micro-Crystals.” Phys. Rev. 1983,95, 167–199.M.
Hargittai, “Molecular Structure of Metal Halides.” Chem. Rev. 2000, 100,2233–2301.B. Vest, Z. Varga, M. Hargittai, A. Hermann, P. Schwerdtfeger, “The ElusiveStructure of CrCl2 – A Combined Computational and Gas-Phase ElectronDiffraction Study.” Chem. Eur. J. 2008, 14, 5130–5143.A. Hermann, B. Vest, P. Schwerdtfeger, “Density Functional Study of a-CrCl2 :Structural, Electronic, and Magnetic Properties.” Phys.
Rev. B 2006, 74.Hargittai, Chem. Rev. 2233–2301.U. Müller, Inorganic Structural Chemistry, Wiley, Chichester and New York,1993.Vest et al., Chem. Eur. J. 5130–5143.Gas-phase study: G. Schultz, I. Hargittai, “Electron diffraction investigation ofethane-1,2-dithiol.” Acta Chim. Hung. 1973, 75, 381–388; solid-state study:M. Hayashi, Y.
Shiro, T. Oshima, and H. Murata, “The Vibrational Assignment, Rotational Isomerism and Force Constants of 1,2-Ethanedithiol.” Bull.Chem. Soc. Japan 1965, 38, 1734–1740.A. Domenicano, I. Hargittai, eds., Accurate Molecular Structures. TheirDetermination and Importance. Oxford University Press, Oxford, 1992.I. Hargittai, M.
Hargittai, “The importance of small structural differences”in Molecular Structure and Energetics, Vol. 2, Chapter 1, J. F. Liebman,502116.117.118.119.120.121.122.123.124.125.126.127.128.129.130.131.132.133.134.135.136.9 CrystalsA. Greenberg, eds., VCH Publishers, Deerfield Beach, FL, 1986, pp. 1–35;M. Hargittai, I. Hargittai, “Gas-solid molecular structure differences.” Phys.Chem. Miner.
![](https://s.studizba.com/z.php?f=/templates/si/i/noavatar.png&w=100&h=100&t=1"){kind=avatar}
