Hi Bhoopesh and Scott,<br><br>I should have given a description of my project. Yes Scott, the work is to investigate the binding mechanisms of aqueous cadmium onto sodium titanate nanotubes. Spectrum of Sample 1 and 2 obtained from merging 9 scans and 4 scans, respectively. <br>
<br>A quick check in Athena and, indeed, the white line of Samples are higher than CdO. I&#39;m not sure the reason behind it though. It is likely that cadmium binds to the surface of substrate rather than inside the bulk. The lack of distinct peaks after 1.8 Å means that there are not many scatters around the absorber?<br>
<br>Bhoopesh, as requested, I have attached the real part of FT (<a href="http://img585.imageshack.us/i/ftreal.jpg/">http://img585.imageshack.us/i/ftreal.jpg/</a>). I haven&#39;t got a chance to interpret them.<br><br>From preliminary fitting of Sample 1, the major and minor peaks at 1.8 and 2.3 Å could be described by a Cd-O path (CdO). This interests me because Sample 2 does not have a peak at 2.3 Å, meaning there is another single scattering path for Sample 2?. <br>
<br>The peaks at 3 Å were fitted with Cd-Ti path (CdTiO3). No multiple scattering paths used. The best fit goes something like this:<br><br>****************************************************************************<br>Independent points          =      13.166992187<br>
Number of variables         =       8.000000000<br>Chi-square                  =    1534.709946959<br>Reduced Chi-square          =     297.021921317<br>R-factor                    =       0.000128095<br>Measurement uncertainty (k) =       0.000060423<br>
Measurement uncertainty (R) =       0.004455442<br>Number of data sets         =       1.000000000<br><br>Guess parameters +/- uncertainties  (initial guess):<br>  amp             =     0.9242390   +/-      0.0509920    (1.0000)<br>
  enot            =     1.3950420   +/-      0.5425380    (0.0000)<br>  delr            =    -0.0872060   +/-      0.0051060    (0.0000)<br>  ss              =     0.0113250   +/-      0.0008480    (0.0030)<br>  amp_2           =     0.2441320   +/-      0.1905250    (1.0000)<br>
  enot_2          =    22.5261260   +/-      4.5990590    (0.0000)<br>  delr_2          =     0.2510860   +/-      0.0719080    (0.0000)<br>  ss_2            =     0.0274690   +/-      0.0128040    (0.0030)<br><br>Correlations between variables:<br>
       amp_2 and ss_2       --&gt;  0.9342<br>      enot_2 and delr_2     --&gt;  0.9133<br>         amp and ss         --&gt;  0.8865<br>        enot and delr       --&gt;  0.8632<br>       amp_2 and delr_2     --&gt;  0.3040<br>
      delr_2 and ss_2       --&gt;  0.2888<br>All other correlations are below 0.25<br><br>  k-range             = 2.000 - 9.000<br>  dk                  = 1.000<br>  k-window            = hanning<br>  k-weight            = 3<br>
  R-range             = 1.000 - 4.000<br>  dR                  = 0.000<br>  R-window            = hanning<br>  fitting space       = R<br>  background function = none<br>  phase correction    = none<br>  <br><br>  R-factor for this data set   = 0.00270<br>
<br>***********************************************************************************<br><br>The above enot_2 is on the high side. I am not entirely familiar with the parameters yet. Are there other parameters I should worry about? <br>
<br><br>Cheers,<br><br>Alan J. DU<br>Nanyang Technological University, Singapore <br><br>