User:Melissa Novy/Notebook/CHEM-572/2013/02/05

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==Entry title==
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==Objectives==
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* Insert content here...
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* Analyze LMT-95Ag with X-ray diffraction.
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* Analyze LMT-95Ag filtrate with silver ion-selective electrode.
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** Make AgNO<sub>3</sub> calibration solutions.
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* Begin ion exchange reaction with AgNO<sub>3</sub> and LMT to obtain LMT-100Ag.
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==Calculations for Ag-LMT==
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  '''MW AgNO<sub>3</sub>: 169.87 g/mol'''
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  '''MW Ag<sup>+</sup>: 107.86 g/mol'''
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  '''CEC Laponite: 55 meqv/100 g'''
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  '''1.5 g LMT × (55 meqv/100 g LMT) × (1 mol Ag<sup>+</sup>/1000 meqv) × (107.86 g Ag<sup>+</sup>/1 mol Ag<sup>+</sup>) × (1 mol Ag<sup>+</sup>/1 mol AgNO<sub>3</sub>) × (1 mol AgNO<sub>3</sub>/169.87 g AgNO<sub>3</sub>) × 100% = 0.000524 g AgNO<sub>3</sub>'''
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==AgNO<sub>3</sub> Calibration Solutions==
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* Calculations
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  '''50 mL 0.01 M AgNO<sub>3</sub>'''
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  '''0.050 L × 0.01 M AgNO<sub>3</sub> × (169.87 g AgNO<sub>3</sub>/1 mol AgNO<sub>3</sub>) = 0.084935 g AgNO<sub>3</sub>'''
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  '''50 mL 0.001 M AgNO<sub>3</sub> by serial dilution'''
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  '''(0.01 M AgNO<sub>3</sub>)(V<sub>1</sub>) = (0.001 M AgNO<sub>3</sub>)(50 mL)'''
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  '''V<sub>1</sub> = 5 mL 0.01 M AgNO<sub>3</sub>'''
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  '''50 mL 0.0001 M AgNO<sub>3</sub> by serial dilution'''
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  '''(0.001 M AgNO<sub>3</sub>)(V<sub>1</sub>) = (0.0001 M AgNO<sub>3</sub>)(50 mL)'''
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  '''V<sub>1</sub> = 5 mL 0.001 M AgNO<sub>3</sub>'''
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* 50 mL 0.01 M AgNO<sub>3</sub>
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** Actual mass AgNO<sub>3</sub>: 0.08910 g
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** Actual molarity: 0.0105 M AgNO<sub>3</sub>
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** Actual ppm Ag<sup>+</sup>: 1132 ppm Ag<sup>+</sup>
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  '''0.08910 g AgNO<sub>3</sub> × (1 mol AgNO<sub>3</sub>/169.87 g AgNO<sub>3</sub>) = 0.000525 mol AgNO<sub>3</sub>'''
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  '''0.000525 mol AgNO<sub>3</sub>/0.050 L = 0.0105 M AgNO<sub>3</sub>'''
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  '''0.000525 mol Ag<sup>+</sup> × (107.87 g Ag<sup>+</sup>/1 mol Ag<sup>+</sup>) = 0.05658 g Ag<sup>+</sup>'''
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  '''(0.05658 g Ag<sup>+</sup>/50 g H<sub>2</sub>O) × 10<sup>6</sup> = 1132 ppm Ag<sup>+</sup>'''
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* 50 mL 0.001 M AgNO<sub>3</sub>
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** Volume of 0.0105 M AgNO<sub>3</sub> used: 4.762 mL
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** Actual ppm Ag<sup>+</sup>: 107.9 ppm Ag<sup>+</sup>
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  '''(0.0105 M AgNO<sub>3</sub>)(V<sub>1</sub>) = (0.001 M AgNO<sub>3</sub>)(50 mL)'''
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  '''V<sub>1</sub> = 4.762 mL 0.0105 M AgNO<sub>3</sub>'''
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  '''0.050 L × 0.001 M Ag<sup>+</sup> × (107.87 g Ag<sup>+</sup>/1 mol Ag<sup>+</sup>) = 0.005393 g Ag<sup>+</sup>'''
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  '''0.005383 g Ag<sup>+</sup>/50 g H<sub>2</sub>O × 10<sup>6</sup> = 107.9 ppm Ag<sup>+</sup>'''
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* 50 mL 0.0001 M AgNO<sub>3</sub>
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** Volume of 0.001 M AgNO<sub>3</sub> used: 5 mL
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** Actual ppm Ag<sup>+</sup>: 10.78 ppm Ag<sup>+</sup>
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==Laponite-Ag<sup>+</sup> Ion Exchange==
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* The protocol from [[User:Melissa_Novy/Notebook/CHEM-572/2013/01/29|2013/01/29]] was followed.  However, the solution will be stirred for 1 week, instead of 24 hours.
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* Theoretical mass Laponite: 1.5 g
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** Actual mass Laponite: 1.49711 g
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* Theoretical mass AgNO<sub>3</sub>: 0.000524 g
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** Actual mass AgNO<sub>3</sub>: 0.00622 g
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* Observations: The solution became opaque and white in color after all components were added.
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Revision as of 15:34, 5 February 2013

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Objectives

  • Analyze LMT-95Ag with X-ray diffraction.
  • Analyze LMT-95Ag filtrate with silver ion-selective electrode.
    • Make AgNO3 calibration solutions.
  • Begin ion exchange reaction with AgNO3 and LMT to obtain LMT-100Ag.

Calculations for Ag-LMT

  MW AgNO3: 169.87 g/mol
  MW Ag+: 107.86 g/mol
  CEC Laponite: 55 meqv/100 g
  1.5 g LMT × (55 meqv/100 g LMT) × (1 mol Ag+/1000 meqv) × (107.86 g Ag+/1 mol Ag+) × (1 mol Ag+/1 mol AgNO3) × (1 mol AgNO3/169.87 g AgNO3) × 100% = 0.000524 g AgNO3

AgNO3 Calibration Solutions

  • Calculations
  50 mL 0.01 M AgNO3
  0.050 L × 0.01 M AgNO3 × (169.87 g AgNO3/1 mol AgNO3) = 0.084935 g AgNO3
  50 mL 0.001 M AgNO3 by serial dilution
  (0.01 M AgNO3)(V1) = (0.001 M AgNO3)(50 mL)
  V1 = 5 mL 0.01 M AgNO3
  50 mL 0.0001 M AgNO3 by serial dilution
  (0.001 M AgNO3)(V1) = (0.0001 M AgNO3)(50 mL)
  V1 = 5 mL 0.001 M AgNO3
  • 50 mL 0.01 M AgNO3
    • Actual mass AgNO3: 0.08910 g
    • Actual molarity: 0.0105 M AgNO3
    • Actual ppm Ag+: 1132 ppm Ag+
  0.08910 g AgNO3 × (1 mol AgNO3/169.87 g AgNO3) = 0.000525 mol AgNO3
  0.000525 mol AgNO3/0.050 L = 0.0105 M AgNO3
  0.000525 mol Ag+ × (107.87 g Ag+/1 mol Ag+) = 0.05658 g Ag+
  (0.05658 g Ag+/50 g H2O) × 106 = 1132 ppm Ag+
  • 50 mL 0.001 M AgNO3
    • Volume of 0.0105 M AgNO3 used: 4.762 mL
    • Actual ppm Ag+: 107.9 ppm Ag+
  (0.0105 M AgNO3)(V1) = (0.001 M AgNO3)(50 mL)
  V1 = 4.762 mL 0.0105 M AgNO3
  0.050 L × 0.001 M Ag+ × (107.87 g Ag+/1 mol Ag+) = 0.005393 g Ag+
  0.005383 g Ag+/50 g H2O × 106 = 107.9 ppm Ag+
  • 50 mL 0.0001 M AgNO3
    • Volume of 0.001 M AgNO3 used: 5 mL
    • Actual ppm Ag+: 10.78 ppm Ag+

Laponite-Ag+ Ion Exchange

  • The protocol from 2013/01/29 was followed. However, the solution will be stirred for 1 week, instead of 24 hours.
  • Theoretical mass Laponite: 1.5 g
    • Actual mass Laponite: 1.49711 g
  • Theoretical mass AgNO3: 0.000524 g
    • Actual mass AgNO3: 0.00622 g
  • Observations: The solution became opaque and white in color after all components were added.


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