Comparison of structural parameters

It is possible to make conclusion about the absence of noticeable structural changes based on comparison of structural parameters of graphite in the beginning and at the end of cycling, using the XRD method. 

Table 1. Comparison of structural parameters of GS inclusion compounds and pure guest structures.

Table 9 Comparison of structural parameters between calculations and experiment for bi-isonicotinic acid adsorbed on TiC>2 rutile (110).

Comparison of Structural Parameters Determined by Density Functional Theory and by EXAFS Spectroscopy Characterizing Samples Made from Chemisorption of [Rh(CO)2(acac)] on Dealuminated Y Zeolite (Goellner, Gates et al., 2000) ... 

A comparison of structural parameters of COT complexes shows the relevance of steric interactions, particularly with metals in higher oxidation states in determining metal-ligand distances giving evidence for possible covalent bonding in these complexes. 

Scheme 18. Comparison of structural parameters for free urea and urea coordinated at dinickel(II) sites with different binding modes D-G (9).

It was established that the Sr(dpm)2 monomeric molecule as well as the Ca(dpm)2 and Ba(dpm)2 molecules have Hid symmetry when the two equivalent planar ligand rings are perpendicular to each other" . A comparison of structural parameters in the series Ca(dpm)2-Sr(dpm)2-Ba(dpm)2 shows that r(M—0) is lengthened andtheO—M—O angle... 

Figure 2.9 Comparison of structural parameters deduced from X-ray diffraction and Raman spectroscopy for a wide set of carbon materials. (Ref. [49] — reproduced by permission of the Royal Society of Chemistry.)...

The surface crystallography of crystalline solids is reviewed and compiled as a sequence of tables that allows the direct comparison of structural parameters of related structures. The presentation of structural data is organized according to the concept of chemical periodicity the surface structures of elements or adsorbates belonging to the same group of the periodic table are considered together. Evidence for the existence of structural trends for clean surfaces and adsorbate systems is extracted and discussed. Structural information for a total of over four hundred surface structures, including 257 adsorption systems, is presented. 

One of the principal aims of this series of books is to collate and order up-to-date experimental data bases on cohesion and structure in order to reveal underlying trends that subsequent theoretical chapters might help elucidate. In this volume we consider the cohesion and structure of surfaces. During the past fifteen years there has been a dramatic increase in the number of different surfaces whose structures have been determined experimentally. For example, whereas in 1979 there were only 25 recorded adsorption structures, to date there are more than 250. In Chapter I Philip Rous presents a timely compilation of this structural data base on surfaces within a series of tables that allows easy direct comparison of structural parameters for related systems. Experimental structural trends amongst both clean surfaces and adsorbate systems are highlighted and discussed. 

Table 13.1. Comparison of Structural Parameters in Borane (X = B) and Silane (X = Si) Complexes...

TABLE 15. The comparison of structural parameters in quartz under high pressure and after partial substitution of Si by Ge. 

Table 10. Comparison of Structural Parameters of Octadecylphosphoric Acid on Tantalum Oxide, Octadecylphosphonic...

Table 20.2 Comparison of structural parameters of mSnO prepared by conventional methods and various P-SnOj samples treated in H PO ...

Sharma A, Kyotani T, Tomita A. Comparison of structural parameters of PE carbon from XRD and HRTEM techniques. Carbon 2000 38( 14) 1977-1984. 

Comparison of structural parameters for non-blue complexes of general formula... 

Table 13.1 Comparison of structural parameters and magnetic structures for Sr2MnGaOs,4i and Sr2MnGa04,78Fi,22 with nearly the same VMn...

Table 11.1 Comparison of structural parameters retrieved by quantitative LEED and DFT.

Table 8 Comparison of structural parameter of different silylarenium ions (bond lengths [pm]) as determined by XRD from their [B(CgF5)4] salts...

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