User:Michael S. Bible/Notebook/571/2014/10/14

[I^-] by Precipitation Titration

• Prepare 25 - 30 mL 50 mM KI Stock Solution (store in 50 mL Falcon tube)
  • To make this solution, 0.249 g of KI was added to 30 mL of water
• Prepare 50 mL 75 mM AgNO₃ Solution
  • To make this solution, 0.637 g of AgNO₃ was mixed with water in a 50 mL volumetric flask
  • Be very precise with your measurements (use Rm 205 balance)
  • Use volumetric flask
  • Store in Black 50 mL Falcon tube
• Prepare 100 mL 10 mM NH₄SCN Stock Solution (store in Falcon tubes)
  • To make this solution, 0.07612 g of NH₄SCN was mixed with water in a 100 mL volumetric flask
• NH4SCN Standardization
  1. Add 3 mL 1 M HNO₃ and 2 mL AgNO₃ to 10 mL DI H₂O
  2. Add 200 μL Ferric alum indicator
  3. Titrate with your NH₄SCN solution
  4. Your solution should turn red around 15 mL
• KI Standardization
  1. Add 3 mL 1 M HNO₃ and 1 mL KI to 10 mL DI H₂O
  2. Add 2 mL AgNO₃ and swirl to complete precipitation
  3. Add 200 μL Ferric alum indicator
  4. Titrate with your NH₄SCN solution
  5. Your solution should turn red around 10 mL

Procedure taken from Dr. Fox's Notebook

Data

NH4SCN Standardization

• Volume required for first titration = 16.0 mL. Second titration = 15.55 mL. Average = 15.78 mL.

• • AgNO₃+NH₄SCN→AgSCN+NH₄NO₃
    • Reaction is 1:1
    • 2mL of AgNO₃=1.5×10^-4 mol
    • 15.75 mL of NH₄SCN contain 1.5×10^-4mol
    • [NH₄SCN]=9.51 mM
• Concentration of AgNO₃ at the lowest saturated concentration:
  • [Ag][SCN]=K_sp where K_sp=1.03×10^-12 (at 25ºC)
  • x²=K_sp
  • [Ag] at the lowest saturated concentration=1.01μM

KI Standardization

• Volume required for first titration = 10.7 mL. Second titration = 10.7 mL. Average = 10.7 mL.

• KI+AgNO₃→AgI+AgNO₃+KNO₃
• AgNO₃+NH₄SCN→AgSCN+NH₄NO₃
  • 10.7 mL of NH₄SCN were required to titrate excess AgNO₃. 10.7 mL of

NH₄SCN contains =1.0176×10^-4mols of NH₄SCN

• • 2mL AgNO₃ contain 1.5×10^-4 mol
  • 1.5×10^-4−1.0176^-4=4.824×10^-5 mol of AgNO₃ reacted with KI in a 1:1 reaction
  • 1 mL of KI contains 4.824^-5 mol
• [KI]=48.24 mM

Additional Experimentation Conducted Today

1. Extracted contents of the HCl Lysozyme dialysis
   1. These were placed into 1.5mL centrifuge tubes for further testing
2. Created new SDS Page Solutions
   1. Mixed 10 μL 0.6 g/L lysozyme with 10μL SDS-PAGE sample buffer in 1.5 mL centrifuge vial
   2. Mixed 10 μL 0.12 g/L lysozyme with 10μL SDS-PAGE sample buffer in 1.5 mL centrifuge vial
   3. Mixed 10 μL 30:1 Au/lysozyme colloid with 10μL SDS-PAGE sample buffer in 1.5 mL centrifuge vial
   4. Mixed 10 μL 0.12 g/L unknown protein with 10 μL SDS-PAGE sample buffer in 1.5 mL centrifuge vial
   5. Placed in heating block (set at 90 °C) for 5 minutes
   6. Stored in refrigerator overnight
3. Created a Potassium Phosphate Buffer
   1. The original protocol asked to make the buffer using KH₂PO₄ and 1M KOH
   2. We opted to use the monobasic and dibasic species of the molecule to obtain the desired pH of 6.24
      • Calculations for the buffer were made using this website [University of Liverpool Buffer Calculator]

To make the Potassium Phosphate buffer we used:

• 0.0839g of K₂HPO₄
• 0.2888g of KHPO₄