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Crystallization science

Wood, W.M.L., 1997. Crystal science techniques in the manufacture of chiral compounds. Cli. 7 in Chirality in Industry II. Eds. N.A. Collins, G.N. Sheldrake and Crosby. New York J. Wiley Sons. [Pg.327]

V. M. L. Wood, Crystal science techniques in the manufacture of chiral compounds in Chirality and Industry II. Developments in the Manufacture and applications of optically active compounds, A. N. Collins, G. N. Sheldrake, J. Crosby (Eds.), John Wiley Sons, New York (1997) Chapter 7. [Pg.19]

U. Gasser, E. Weeks, A. Schofield, P.N. Pusey, and D.A. Weitz Real-Space Imaging of Nucleation and Growth in CoUoidal Crystallization. Science 292, 258 (2001). [Pg.221]

O. Velev, A. Lenhoff, and E.W. Kaler A Class of Micro structured Particles Through Colloidal Crystallization. Science 287, 2240 (2000). [Pg.222]

Hasegawa T, Takeya J (2009) Organic field-effect transistors using single crystals. Science Tech Adv Mater 10 024314... [Pg.64]

Collet E, Lemee-Cailleau MH, Buron-Le Cointe M, Cailleau H, Wulff M, Luty T, Koshihara S, Meyer M, Toupet L, Rabiller P, Techert S (2003) Laser-induced ferroelectric structural order in an organic charge-transfer crystal. Science 300 612-615... [Pg.116]

Kondepudi, D. K., Kaufman, R., and Singh, N. (1990). Chiral symmetry breaking in sodium chlorate crystallization. Science, 250, 975. [Pg.283]

Mizeikis V, Seet KK, Juodkazis S, Misawa H (2004) Three-dimensional woodpile photonic crystal templates for infrared spectral range. Opt Lett 29(17) 2061-2063 Loader O, John S (2001) Proposed square spiral microfabrication architecture for large three-dimensional photonic band crystals. Science 292 1133-1135 Seet KK, Mizeikis V, Juodkazis S, Misawa H (2006) Three-dimensional horizontal circular spirals photonic crystals with stopgaps below 1 xm. Appl Phys Lett 88(22) 221101... [Pg.203]

Chuang. 1. el al. Cosmology in the Laboratory Defect Dynamics in Liquid Crystals," Science, 1336 (March 5, 1991). [Pg.459]

FausL W.L. Explosive Molecular Ionic Crystals. Science. 37 (July 7. t989>. Flam, F. Liquid Crystals Meet the Cosmos at APS Meeting." Science, 649 (May... [Pg.459]

Safinya CR, Ewert KK, Ahmad A, Evans HM, Raviv U, Needleman DJ, Lin AJ, Slack NL, George CX, Samuel CE (2006) Cationic liposome-DNA complexes from liquid crystal science to gene delivery applications. Phil Transact Royal Soc A 364 2573-2596... [Pg.222]

Bashkin IO, Kolesnikov AI, Antonov VE, Ponyatovsky EG, Kobzev AP, Muzychka AY, Moravsky AP, Wagner FE, Grosse G (1998) Vibrational spectra of C-60 hydrofullerite prepared under high hydrogen pressure. Molecular crystals and liquid crystals science and technology section c. Mol Mater 10 265-270... [Pg.101]

Cohen, C., and Lonaley, W. (1996). Tropomyosin paracrystals formed by divalent crystals. Science 152, 794—796. [Pg.151]

Bums, R. G. Fyfe, W. S. (1964) Site preference energy and selective uptake of transition metal ions during magmatic crystallization. Science, 144,1001-3. [Pg.484]

Y. Nishi, Molecular Crystals and Liquid Crystals Science and Technology, Section A Molecular Crystals and Liquid Crystals 2000,340, 419. [Pg.313]

Quartz anomalous weakness of synthetic crystals. Science, 147, 292-5. [Pg.371]

Kashima, K., Sunagawa, I., Sumino, K. (1983). Plastic deformation of olivine single crystals. Science Reports of the Tohoku University, series III, 15,281-407. [Pg.373]

The Faraday Society has done much to further the development of liquid crystal science, through the organisation of two Discussions, in 1933 and 1958, and a Symposium in 1971, as well as by the publication of numerous and diverse papers in the Transactions. [Pg.225]

Nagasawa H. (1966) Trace element partition coefficient in ionic crystals. Science 152, 767-769. [Pg.1123]

Jamtveit B. and Hervig R. L. (1994) Constraints on transport and kinetics in hydrothermal systems from zoned garnet crystals. Science 263, 505-508. [Pg.1522]

Velikov, K., Christova, C., Dullens, R. et al.. Layer-by-layer growth of binary colloidal crystals. Science, 296, 106, 2002. [Pg.384]

Moffat, K., Szebenyi, D., and Bilderback, D. X-ray Laue diffraction from protein crystals. Science 223, 1423-1425 (1984). [Pg.820]

For an excellent discussion on crystallization-saturation curves, see Wood,W. M. L., Crystallization Science in Manufacture of Chiral Compounds. In Chirality in Industry II Collins, A. N. Sheldrake, G. N. Crosby, J., Eds. Wiley New York 1997, pp 119-156. [Pg.245]

Stupp, S.I. Braun, P.V. Nanostructure templating in inorganic solids with organic lyotropic liquid crystals. Science 1999, 277, 1242. [Pg.1280]

R. and Abbott. N.L., 2001. Principles for measurement of chemical exposure based on recognition-driven anchoring transitions in liquid crystals. Science, 293, pp. 1296-1299. [Pg.177]

See other pages where Crystallization science is mentioned: [Pg.871]    [Pg.871]    [Pg.838]    [Pg.123]    [Pg.156]    [Pg.28]    [Pg.77]    [Pg.130]    [Pg.211]    [Pg.333]    [Pg.682]    [Pg.705]    [Pg.344]    [Pg.286]   
See also in sourсe #XX -- [ Pg.28 ]



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