- Analyze DSC data taken on 9/14/2012
- Dilute 20 ppm SO4-2 stock solutions made on 9/19/2012 to be used for atomic absorption calibration
- Dilute to 1ppm, 2ppm, 5ppm, 10ppm, 15ppm
- Prepare a 500mL solution of 1.25g CuSO4 using HPLC grade H2O
- Prepare more glutaraldehyde films
- Prepare a thin PVOH film for use in FTIR
- Run X-Ray diffraction of 2:1 NaMT:Fe2O4 clay dried on 9/19/2012\
- Prepare glutaraldehyde fixant solution
Fixant Solution preparation
- Weigh out 200g Na2SO4 (actually measured out 200.1459g)
- Place in a 2000mL Erlenmyer flask
- Using a graduated cylinder, add 1000mL deionized H2O. Add a large magnetic stir bar to the flask
- Place Erlenmyer flask on a stir plate. Stir until all dissolves
- Add 20mL concentrated H2SO4
- Gently mix solution and using a funnel pour the solution into four 250mL capped bottles
- Note: H2SO4 is highly corrosive. Use extreme caution
- Glutaraldehyde film preparation
The films were prepared following the General Protocol described on2012/09/12
- Prepared films
- 1.000gPVOH MW 22,000+0.8wt% glutaraldehyde
- 0.9499gPVOH MW 22,000+0.8wt% glutaraldehyde+0.052mL PDMS
- 1.002gPVOH MW 22,000+0.8wt% glutaraldehyde
- Calculations for film preparation
0.05g(1mL/0.97g)=0.0515mL PDMS must be added to create 5% replaced PDMS film
- Thin Film preparation
The film was prepared following the General Protocol described on2012/08/29
- Prepared film
- 0.2g PVOH MW 22,000 in a large dish
General Protocol for Dilutions:
- All necessary calculations were performed prior to preparation
- An automatic pipette was used to administer completely accurate volumes of stock solution to plastic tube(If necessary a 1mL pipette was used)
- HPLC grade H2O was added to the tube using an automatic pipette to total volume
V1=2.5mL= volume of stock needed to prepare
- Please refer to Karleena Brown's notebook for further dilution calculations
The General Protocol for X-Ray described on 2012/09/19 was used
- 2:1 NaMT:Fe3O4 clay prepared on 2012/09/12 was used for x-ray
- The sample was prepared by grinding the clay to a fine powder using a mortar and pestle
Note: This clay was particularly difficult to grind. It is also reddish brown in color
DSC ran on 9/14/2012 was analyzed. Glass transition states were calculated using the program
Graph of heat flow of uncrosslinked PVOH (MW 22000) + 10% succinic acid + HCl.
- A glass transition was observed at 105.17°C.
Graph of heat flow of crosslinked PVOH (MW 22000) + 10% succinic acid + HCl.
- A glass transition was observed at 138.04°C. Note that this temperature is above the glass transition observed for the uncrosslinked film of same formulation. This indicates that some crosslinking successfully occurred.
Graph of heat flow of uncrosslinked PVOH (MW 22000) + 10% maleic acid + HCl.
- A glass transition was observed at 109.61°C.
Graph of heat flow of crosslinked PVOH (MW 22000) + 10% maleic acid + HCl.
Graph of heat flow of uncrosslinked PVOH (MW 22000).
- A glass transition was observed at 70.62°C.
Graph of heat flow of crosslinked PVOH (MW 22000).
- The General protocol for testing viscosity was followed using viscometer 2190
- Mass of film used: 0.0987g
- The PVOH MW 22000+[HCl]+10%succinic acid crosslinked film was allowed to stir for 1 hour. Although the film did not completely dissolve after 1 hour, the size of the film did not change
- Stored the film that remained after 1hr. stirring for further testing
- Viscosity of pure H2O at 25°C
|Trial [ ]
| 1|| 207.68
| 2|| 207.95
| 3|| 208.47
- Viscosity of PVOH MW 22,000+[HCl]+10%maleic acid at 25°C
|Trial [ ]
| 1|| 207.61
| 2|| 207.96
| 3|| 207.29