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Diffraction dissociation

Gillespie, D. T. 1968. Some aspects of resonance production and diffraction-dissociation in 5.44 GeV/c Ktp interactions, Ph.D. dissertation. Johns Hopkins University. [Pg.22]

Figure Bl.17.12. Time-resolved visualization of the dissociation of myosin SI from filamentous actin (see also figure Bl.17.6). Shown are selected filament images before and after the release of a nucleotide analogue (AMPPNP) by photolysis (a) before flashing, (b) 20 ms, (c) 30 ms, (d) 80 ms and (e) 2 s after flashing. Note the change in obvious order (as shown by the diffraction insert in (a)) and the total dissociation of the complex in (e). The scale bar represents 35.4 mn. Picture with the courtesy of Academic Press. Figure Bl.17.12. Time-resolved visualization of the dissociation of myosin SI from filamentous actin (see also figure Bl.17.6). Shown are selected filament images before and after the release of a nucleotide analogue (AMPPNP) by photolysis (a) before flashing, (b) 20 ms, (c) 30 ms, (d) 80 ms and (e) 2 s after flashing. Note the change in obvious order (as shown by the diffraction insert in (a)) and the total dissociation of the complex in (e). The scale bar represents 35.4 mn. Picture with the courtesy of Academic Press.
Maleic and fiimaric acids have physical properties that differ due to the cis and trans configurations about the double bond. Aqueous dissociation constants and solubiUties of the two acids show variations attributable to geometric isomer effects. X-ray diffraction results for maleic acid (16) reveal an intramolecular hydrogen bond that accounts for both the ease of removal of the first carboxyl proton and the smaller dissociation constant for maleic acid compared to fumaric acid. Maleic acid isomerizes to fumaric acid with a derived heat of isomerization of —22.7 kJ/mol (—5.43 kcal/mol) (10). The activation energy for the conversion of maleic to fumaric acid is 66.1 kJ/mol (15.8 kcal/mol) (24). [Pg.449]

Reliable information on the thermodynamic stability of group 13/15 adducts is usually obtained by gas phase measurements. However, due to the lability of stibine and bismuthine adducts in the gas phase toward dissociation, temperature-dependent H-NMR studies are also useful for the determination of their dissociation enthalpies in solution [41b], We focussed on analogously substituted adducts t-BusAl—E(f-Pr)3 (E = P 9, As 10, Sb 11, Bi 12) since they have been fully characterized by single crystal X-ray diffraction, allowing comparisons of their thermodynamic stability in solution with structural trends as found in their solid state structures. [Pg.126]

The 4 1 5 phase was shown by thermogravimetric analysis to dissociate at about 160 °C to zinc oxide and the 1 1 2 phase, a process which was verified using X-ray diffraction (Sorrell, 1977). Once the 1 1 2 phase was formed it underwent characteristic dissociation at temperatures above 160 °C. [Pg.288]

Carbon deposition from CO on a cobalt catalyst at low pressures is known to be a structure-sensitive process. CO is adsorbed molecularly on the low index surfaces (Co (0001)), but its dissociation occurs on the Co (1012), Co (1120), and polycrystalline surfaces.5762 Deposition of carbon on Co (1012) and the probable formation of Co3C have been established by Auger emission spectroscopy (AES) and low-energy electron diffraction (LEED) techniques.66... [Pg.60]

Nanosecond time-resolved crystallography of MbCO has been discussed in Section 3.7.2.3 of Chapter 3.46 After firing a 10-ns burst of laser light to break the CO-Fe bond, these researchers produced a diffraction image of the crystal through application of a 150-ps X-ray pulse. They are able to show release of the CO molecule, displacement of the Fe ion toward the proximal histidine, and recombination of the dissociated CO by about 100 ps. Essentially their results compare well with other spectroscopic studies of HbCO, MbCO and their models. [Pg.184]

Interestingly, on warming a solution of 94 the phosphine ligand dissociates to afford the new complex 95. An X-ray diffraction study of the latter complex indicates that the phosphinocarbene behaves as a 4-electron ligand (coordination mode B).86... [Pg.210]

These examples would seem to indicate that the molybdenum atom, that for a long time was considered to be the specific site of dinitrogen coordination, is of little importance. It should be borne in mind, however, that the X-ray structure of the protein was obtained in the resting state. As noted, under such conditions, the Mo atom is assigned oxidation state IV and has a saturated coordination, hence not able to further coordinate nitrogen. EXAFS studies on the active protein indicate a Mo coordination different to that determined by X-ray diffraction. One hypothesis considers the dissociation of the homocitrate, induced by addition of electrons, that would leave vacant coordination sites which could then be saturated by the nitrogen molecule. [Pg.473]

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See also in sourсe #XX -- [ Pg.2 , Pg.295 ]



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Diffractive dissociation

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