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Structure American Chemical Society

Structures American Chemical Society Symposium Series 384, El-Nokaly, M. A., Ed. 1989 p 156. [Pg.269]

Deetlefs M, Shara M, Seddon KR (2005) Refractive indices of ionic liquids. In Rogers RD, Seddon KR (eds) Ionic liquids Ilia fundamentals, progress, challenges, and opportunities, properties and structure. American Chemical Society, Washington, pp 219-233... [Pg.79]

H. R. Moskowitz and C. B. Warren, Odour Quality and Chemical Structure, American Chemical Society, 1979. [Pg.266]

Costa, L. Guaita, M. "Cyclopolymerization and Polymers with Chain-Ring Structures" American Chemical Society Washington, DC, 1982. [Pg.28]

I. G. Hargis, R. A. Livigni, and S. L. Aggarwal, in J. Mark and co-workers, eds., ACS Symposium Series 193 Synthesis and Properties of Diene Elastomers with Controlled Structure, American Chemical Society, Washington, D.C., 1982, p. 73. [Pg.897]

Fig. VIII-9. Alteration of the structure of a Ni(llO) surface by H-atom adsorption (a) structure for 0 = 1 (b) structure for 0 > 1. [Reprinted with permission from G. Ertl, Langmuir, 3, 4 (1987). Copyright 1987, American Chemical Society.]... Fig. VIII-9. Alteration of the structure of a Ni(llO) surface by H-atom adsorption (a) structure for 0 = 1 (b) structure for 0 > 1. [Reprinted with permission from G. Ertl, Langmuir, 3, 4 (1987). Copyright 1987, American Chemical Society.]...
Fig. XVni-8. (a) Work function change for Pt(lU) as a function of oxygen adatom coverage. From Ref. 82. b) Same, for potassium. The corresponding sequence of LEED structures is indicated. [Reprinted with permission from R. G. Windham, M. E. Bartram, and B. E. Koel, J. Phys. Chem., 92, 2862 (1988) (Ref. 83). Copyright 1988, American Chemical Society.]... Fig. XVni-8. (a) Work function change for Pt(lU) as a function of oxygen adatom coverage. From Ref. 82. b) Same, for potassium. The corresponding sequence of LEED structures is indicated. [Reprinted with permission from R. G. Windham, M. E. Bartram, and B. E. Koel, J. Phys. Chem., 92, 2862 (1988) (Ref. 83). Copyright 1988, American Chemical Society.]...
Mullin A S and Schatz G C (eds) 1997 Highly Excited Molecules Relaxation, Reaction and Structure (ACS Symp. Ser. 678) (Washington, DC American Chemical Society)... [Pg.1003]

Figure 5.23 reprinted with permission from Doubleday C, J Mclver, M Page and T Zielinski. Temperature Dependence of the Trcmsition-State Structure for the Disproportionation of 1 lydrogen Atom with Ethyl Radical. The Journal of the American Chemical Society 107 5800-5801. c,1985 American Chemical Society. [Pg.19]

Figure 7.13 reprinted with permission from Jorgensen W L, R C Binning Jr and B Bigot. Structures md Properties of Organic Liquids u-Butane and 1,2-Dichloroethane and Their Conformational Equilibria. The Journal of the American Chemical Society 103 4393-4399. 1981 American Chemical Society. [Pg.19]

Gavezzotti A 1991. Generation of Possible Crystal Structures from the Molecular Structure for Low-polarity Organic Compounds, journal of the American Chemical Society 113 4622-4629. [Pg.523]

Gavezzotti A and G Filippini 1996. Computer Prediction of Organic Crystal Structures Using Partial X-ray Diffraction Data, journal of the American Chemical Society 118 7153-7157. [Pg.523]

C. Hansch, A. Leo, Exploring QSAR American Chemical Society, Washington (1995). L. B. Kier, L. H. Hall, Molecular Connectivity in Structure-Activity Analysis Research Studies Press, Chichester (1986). [Pg.250]

The best textbooks for the advanced student of chemistry are the scientific journals. One may, for example, take any recent issue of the Journal of the American Chemical Society and look for structural formulas. On my desk 1 have Vol. 103, No. 25 (1981). The following seven compounds are discussed in this particular issue (page numbers in brackets). [Pg.213]

F. Candau, in M. A. El-Nokaly, ed., Poljmer Association Structures Microemulsions and Eiquid Crjstals (ACS Symposium Ser. 384), American Chemical Society, Washington, D.C., 1989, pp. 47—61. [Pg.146]

Y. K. Hong and co-workers, Poljmerdissociated Structures Microemu/sions and dquid Crystals ACS Symposium Series, 384, American Chemical Society,... [Pg.302]

J. C. Randall, ed., NMR and Macromolecules, Sequence, Dynamic, and Domain Structure, MCS Symposium Series, No. 247, American Chemical Society,... [Pg.191]

FIG. 14-60 Comp arison of measured and calculated values of liquid holdup for Gempak 2A structured packing, air-water system. [Rocha et al., Ind. Eng. Chem., 32, 641 (1.9.93).] Reproduced with permission. Copyright 199.3 American Chemical Society. [Pg.1394]

Figure 18.20 The two-dimensional NMR spectrum shown in Figure 18.17 was used to derive a number of distance constraints for different hydrogen atoms along the polypeptide chain of the C-terminal domain of a cellulase. The diagram shows 10 superimposed structures that all satisfy the distance constraints equally well. These structures are all quite similar since a large number of constraints were experimentally obtained. (Courtesy of P. Kraulis, Uppsala, from data published in P. Kraulis et ah. Biochemistry 28 7241-7257, 1989, by copyright permission of the American Chemical Society.)... Figure 18.20 The two-dimensional NMR spectrum shown in Figure 18.17 was used to derive a number of distance constraints for different hydrogen atoms along the polypeptide chain of the C-terminal domain of a cellulase. The diagram shows 10 superimposed structures that all satisfy the distance constraints equally well. These structures are all quite similar since a large number of constraints were experimentally obtained. (Courtesy of P. Kraulis, Uppsala, from data published in P. Kraulis et ah. Biochemistry 28 7241-7257, 1989, by copyright permission of the American Chemical Society.)...
Fig. 5.8. Crystal structures of bis(cyclopropyl)hydroxymethyl cation and 1-cyclopropyl-1-phenylhy-drox methyi cation. (Stmctural diagrams are rqrroduced from Ref 45 with permission of the American Chemical Society.)... Fig. 5.8. Crystal structures of bis(cyclopropyl)hydroxymethyl cation and 1-cyclopropyl-1-phenylhy-drox methyi cation. (Stmctural diagrams are rqrroduced from Ref 45 with permission of the American Chemical Society.)...
Fig. 5.12. Crystal structures of substituted norbomyl cations. (A) 1,2,4,7-Tetramethylnorbomyl cation (reproduced from Ref. 154 by permission of Wiley-VCH). (B) 2-Methoxy-l,7,7-trimethyl-norbornyl cation (reproduced from Ref 155 by permission of the American Chemical Society). Fig. 5.12. Crystal structures of substituted norbomyl cations. (A) 1,2,4,7-Tetramethylnorbomyl cation (reproduced from Ref. 154 by permission of Wiley-VCH). (B) 2-Methoxy-l,7,7-trimethyl-norbornyl cation (reproduced from Ref 155 by permission of the American Chemical Society).
Fig. 7.1. Crystal structures of phertyllithium (A) dimeric structure incorporating tetra-methylethylenediamine (B) tetrameric structure incorporating dietl l ether., (Reproduced ftom Refs. 28 and 29 with permission of Wiley-VCH and the American Chemical Society.)... Fig. 7.1. Crystal structures of phertyllithium (A) dimeric structure incorporating tetra-methylethylenediamine (B) tetrameric structure incorporating dietl l ether., (Reproduced ftom Refs. 28 and 29 with permission of Wiley-VCH and the American Chemical Society.)...
Fig. 7.3. Crystal structures of some lithium etiolates of ketones. (A) Unsolvated hexameric enolate of methyl t-butyl ketone (B) tetrahydrofuran solvate of tetramer of enolate of methyl r-butyl ketone (C) tetrahydrofuran solvate of tetramer of enolate of cyclopentanone (D) dimeric enolate of 3,3-dimethyl-4-(r-butyldimethylsiloxy)-2-pentanone. (Structural diagrams are reproduced from Refs. 66-69.) by permission of the American Chemical Society and Verlag Helvetica Chimica Acta AG. Fig. 7.3. Crystal structures of some lithium etiolates of ketones. (A) Unsolvated hexameric enolate of methyl t-butyl ketone (B) tetrahydrofuran solvate of tetramer of enolate of methyl r-butyl ketone (C) tetrahydrofuran solvate of tetramer of enolate of cyclopentanone (D) dimeric enolate of 3,3-dimethyl-4-(r-butyldimethylsiloxy)-2-pentanone. (Structural diagrams are reproduced from Refs. 66-69.) by permission of the American Chemical Society and Verlag Helvetica Chimica Acta AG.
Scheme 1. (a) Formation of a fragment with m/z = 247 from a covalent bond between y-GPS and DBA dimer, (b) Final structure of the cation with mjz = 247. Reproduced by permission of the American Chemical Society from Ref. [55]. [Pg.300]

Molecular Orbital Theory of the Electronic Structure of Organic Compounds V Molecular Orbital Theoiy of Bond Separation W. J. Hehre, R. Ditchfield, L. Random and J. A. Pople Journal of the American Chemical Society 92 (1970) 4796... [Pg.319]

Fig. 3.4 X- ray crystal structure of the 18-crown-6-ICH2Znl adduct 31. [Charette, A.B. Marcoux, ).F. B4langer-Gari4py, F. J. Am. Chem. Soc. 1996, 7 78, 6792. Reprinted with permission from The American Chemical Society]... Fig. 3.4 X- ray crystal structure of the 18-crown-6-ICH2Znl adduct 31. [Charette, A.B. Marcoux, ).F. B4langer-Gari4py, F. J. Am. Chem. Soc. 1996, 7 78, 6792. Reprinted with permission from The American Chemical Society]...
Fig. 23. Projection on the XZ plane of NafTaF structure. Numbers denote the Y coordinates of the atom (xlOO). Reproduced from [136], J. L. Hoard, W. J. Martin, M. E. Smith, J. Amer. Chem. Soc. 76 (1954) 3820, Copyright 1954, with permission of American Chemical Society. Fig. 23. Projection on the XZ plane of NafTaF structure. Numbers denote the Y coordinates of the atom (xlOO). Reproduced from [136], J. L. Hoard, W. J. Martin, M. E. Smith, J. Amer. Chem. Soc. 76 (1954) 3820, Copyright 1954, with permission of American Chemical Society.
Fig. 34. Structure of K2Nb03F. Reproduced from [220], F. Galasso, W. Darby, J. Phys. Chem. 66 (1962) 1318, Copyright 1962, with permission of American Chemical Society. Fig. 34. Structure of K2Nb03F. Reproduced from [220], F. Galasso, W. Darby, J. Phys. Chem. 66 (1962) 1318, Copyright 1962, with permission of American Chemical Society.
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ACS Symposium Series American Chemical Society: Washington structures

In Catalytic Materials: Relationship Between Structure and Reactivity Whyte ACS Symposium Series American Chemical Society: Washington

In Cyclopolymerization and Polymers with Chain-Ring Structures Butler ACS Symposium Series American Chemical Society: Washington

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