Objectives
- Grind 100Ag-LMT made on 2013/02/05 into a fine powder.
- Make PLA2002D + 5 wt% 100Ag-LMT film.
- Make PLA2002D + 5 wt% LMT film.
PLA2002D Films
- The protocol on 2013/02/06 was used to make the films.
- Each film contained 5 wt% of 100Ag-LMT or LMT for one gram of PLA2002D.
- PLA2002D + 5 wt% LMT film
- Theoretical mass PLA2002D: 1 g
- Theoretical mass LMT: 0.05 g
- Actual mass PLA2002D: 1.009185 g
- Actual mass LMT: 0.05060 g
- PLA2002D + 5 wt% 100Ag-LMT film
- Theoretical mass PLA2002D: 1 g
- Theoretical mass 100Ag-LMT: 0.05 g
- Actual mass PLA2002D: 1.01686 g
- Actual mass 100Ag-LMT: 0.05062 g
- Final mass of PLA2002D + 5 wt% 100Ag-LMT: 0.97 g
- Actual content of silver in 0.5 g PLA2002D + 5 wt% 100Ag-LMT:
0.00622 g AgNO3 × (1 mol AgNO3/169.87 g AgNO3) × (1 mol Ag+/1 mol AgNO3) = 3.66 × 10-5 mol Ag+
[Ag+] in 5 mL 100Ag-LMT filtrate was 0.000253614 M
0.000253614 M Ag+ × 0.005 L = 1.2681 × 10-6 mol Ag+
Therefore, 3.66 × 10-5 mol Ag+ − 1.2681 × 10-6 mol Ag+ = 3.53 × 10-5 mol Ag+ was exchanged into 100Ag-LMT.
0.05 × 0.5 g PLA2002D + 5 wt% 100Ag-LMT = 0.025 g 100Ag-LMT
(3.53 × 10-5 mol Ag+) ÷ (0.05062 g 100Ag-LMT) = x mol Ag+ ÷ (0.025 g 100Ag-LMT)
4.47 × 10-8mol Ag+ in 0.025 g 100Ag-LMT of 0.5 g PLA2002D + 5 wt% 100Ag-LMT film
ISE Study of PLA2002D + 5 wt% 100Ag-LMT
- Calculations:
- To determine maximum [Ag+] possible, assume that all Ag+ leaches out of solution.
- The solution contained 50 mL pure H2O and 1 mL ionic strength adjuster. The recommended ratio of solution to ionic strength adjuster is 50 mL to 1 mL. Then, 0.50 g of film was added to the solution.
(4.47 × 10-8mol Ag+0 ÷ 0.051 L = 8.76 × 10-7 M or 0.876 μM
- Protocol
- Pour 50 mL pure H2O into a clean, dry 250-mL Erlenmeyer flask and add 1 mL of 5 M KNO3.
- Measure the conductivity of the solution with the ISE.
- Place the film into the flask, swirl, and measure the conductivity.
- Wait 30 min, then measure the conductivity again.
- Repeat the above step 5 more times.
|
