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Hydrogen bonding lower limits

Acetate fibers are dyed usually with disperse dyes specially synthesized for these fibers. They tend to have lower molecular size (low and medium energy dyes) and contain polar groups presumably to enhance the forces of attraction by hydrogen bonding with the numerous potential sites in the cellulose acetate polymer (see Fibers cellulose esters). Other dyes can be appHed to acetates such as acid dyes with selected solvents, and azoic or ingrain dyes can be apphed especially for black colorants. However thek use is very limited. [Pg.365]

Only limited success was achieved in determining the relative reactivity of primary, secondary, and tertiary carbon-hydrogen bonds to sulphonyl nitrenes 8>. Insertion of p-toluenesulphonyl nitrene into 2-methylbutane gave a mixture of products which could not be completely resolved. The ratio of (primary) (secondary + tertiary) = [38 + 39 40 + 41] was 1.53, compared to a ratio of 5.6 for carbethoxynitrene58>, indicating the lowered selectivity of the sulphonyl nitrene relative to the carbethoxynitrene, as might be expected from the possible resonance stabilization of the latter species. [Pg.24]

To conclude our description of techniques, the use of nanosecond and picosecond spectroscopy which has been applied to excited state intramolecular proton transfer (ESIPT) will be mentioned briefly (Beens et al., 1965 Huppert et al., 1981 Hilinski and Rentzepis, 1983). A large number of inter-and intramolecular proton transfers have been studied using these methods (Ireland and Wyatt, 1976) but in the case of processes which are thought to involve simple proton transfer along an intramolecular hydrogen bond it is usually only possible to estimate a lower limit for the rate coefficient. [Pg.146]

On this voltaamogram the hydrogen adsorbed at step sites corresponds to a state near the lower limit of the potential range i.e. to the weakly bonded state, a conclusion at variance with gas phase results (19). [Pg.209]

The manner in which four characteristic properties of hydrogen bonds vary are shown diagrammatically in Fig. 4(a-d). In every case the lower limit of the hydrogen-bond length, -"B the very strong hydrogen... [Pg.270]

State for proton removal from the open intermediate. At the lower buffer concentration, the proton-transfer step occurs more slowly than closing of the hydrogen bond, and proton transfer is rate limiting. At the higher... [Pg.342]

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See also in sourсe #XX -- [ Pg.259 , Pg.260 , Pg.261 ]



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Bonding limitations

Hydrogen bond limitations

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