User:Michael F. Nagle/Notebook/Chem 571/2012/10/09: Difference between revisions

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==Procedure==
==Procedure==
#Atomic Absorbtion spectroscopter was calibrated with standard solutions of Au, with concentrations of 5, 8, 10, 15, 20, 25, 30 and 40 ppm.  
#Atomic Absorbtion spectroscopter was calibrated with standard solutions of Au, with concentrations of 5, 8, 10, 15, 20, 25, 30 and 40 ppm prepared by [[User:Abigail E. Miller/Notebook/CHEM571 Lab Project/2012/10/08| Dr. Miller]].  
##Between samples, deionized water was run throguh the spectroscoper.
##Between samples, deionized water was run throguh the spectroscoper.
#A blank was run with 1M HCl once every four samples.   
#A blank was run with 1M HCl once every four samples.   
#Samples of Au/BSA made [[User:Michael_F._Nagle/Notebook/Chem_571/2012/10/03|last week]] were analyzed.
#Samples of Au/BSA made [[User:Michael_F._Nagle/Notebook/Chem_571/2012/10/03|last week]] were analyzed.
 
==Data==
[[Image:AAgold.jpg]]
==Discussion==
*The lack of a consistent slope in the 132-140 [Au/BSA] range would suggest that a higher percentage of gold goes into fibers at these mole ratios. However, this contradicts our previous trials with Au/BSA in UV/Vis, which showed the most AuNP in solution around this region, and the least in fibers.
*The opposite trend was expected. More trials need to be run to see what's going on here.
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Revision as of 23:08, 6 December 2012

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Procedure

  1. Atomic Absorbtion spectroscopter was calibrated with standard solutions of Au, with concentrations of 5, 8, 10, 15, 20, 25, 30 and 40 ppm prepared by Dr. Miller.
    1. Between samples, deionized water was run throguh the spectroscoper.
  2. A blank was run with 1M HCl once every four samples.
  3. Samples of Au/BSA made last week were analyzed.

Data

Discussion

  • The lack of a consistent slope in the 132-140 [Au/BSA] range would suggest that a higher percentage of gold goes into fibers at these mole ratios. However, this contradicts our previous trials with Au/BSA in UV/Vis, which showed the most AuNP in solution around this region, and the least in fibers.
  • The opposite trend was expected. More trials need to be run to see what's going on here.


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