User:Karlena L. Brown/Notebook/PVOH Research/2012/11/09

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PVOH Research

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OBJECTIVES

Prepare PVOH films for Acetylation Reactions
Titrate PVOH film solutions

General Formula for reactions

Polyvinyl alcohol + [HoAc]→Polyvinyl acetate

Acetylation Reaction Protocol & Film Preparation

In 10mL beaker, weigh out ~ 1.0 grams PVOH (MW 22K)
Then, using a graduated cylinder add ~ 3-4 mL H₂O to the beaker
After adding and combining PVOH (MW 22K) in a small beaker with H₂O, add a stir bar and prepare to stir solution
On hot plate, stir and heat beaker solutions at 70-80°C for ~ 12 min or until PVOH dissolves
Once PVOH solids thoroughly dissolve in solution, add a small portion of acetic acid (HoAc)
In addition, add ~2 drops of HCl to the solution and continue to stir for an hour
Allow the solution to cool and prepare for titration

REPEAT PROCEDURE ABOVE FOUR TIMES TO PREPARE FOUR FILMS

PVOH Mass (g)	Acetic Acid (mL)	Hydrochloric Acid (drops)	Total Volume(mL)	Total Volume(mL)
1.0062	1.30	2	3.70	7
1.0043	0.26	2	4.74	7
1.0052	0.52	2	4.48	7
1.0027	0.78	2	4.22	7

Acetylation Reaction Calculations

1:1 HoAc Reaction Ratio:

  MW R-CH₂CHOH-R: 44.00 g/mol
  MW Acetic Acid (HoAc): 60.00 g/mol
  1.0g PVOH × (1 mol PVOH/44.00g PVOH) × (1 mol HoAc/1 mol PVOH) × (60.00g HoAc/1 mol HoAc) = 1.36g HoAc
  1.36g HoAc × (1mL HoAc/1.05g HoAc)= 1.30mL HoAc

20% HoAc Reaction Ratio:

  MW R-CH₂CHOH-R: 44.00 g/mol
  MW Acetic Acid (HoAc): 60.00 g/mol
  1.0g PVOH × (1 mol PVOH/44.00g PVOH) × (0.2 mol HoAc/1 mol PVOH) × (60.00g HoAc/1 mol HoAc) = 0.27g HoAc
  0.27g HoAc × (1mL HoAc/1.05g HoAc)= 0.26mL HoAc

40% HoAc Reaction Ratio:

  MW R-CH₂CHOH-R: 44.00 g/mol
  MW Acetic Acid (HoAc): 60.00 g/mol
  1.0g PVOH × (1 mol PVOH/44.00g PVOH) × (0.4 mol HoAc/1 mol PVOH) × (60.00g HoAc/1 mol HoAc) = 0.55g HoAc
  0.55g HoAc × (1mL HoAc/1.05g HoAc)= 0.52mL HoAc

60% HoAc Reaction Ratio:

  MW R-CH₂CHOH-R: 44.00 g/mol
  MW Acetic Acid (HoAc): 60.00 g/mol
  1.0g PVOH × (1 mol PVOH/44.00g PVOH) × (0.6 mol HoAc/1 mol PVOH) × (60.00g HoAc/1 mol HoAc) = 0.82g HoAc
  0.82g HoAc × (1mL HoAc/1.05g HoAc)= 0.78mL HoAc

Titration Solution Preparation

0.2M Sodium Bicarbonate (NaHCO₃)solution for titration preparation:

Weigh out ~16.802g NaHCO₃

    (Actual NaHCO₃ Mass= 16.8046g)

Add the NaHCO₃ solids to a 250mL closed cap plastic bottle
Next, add ~2500mL of H₂O to the bottle along with large magnetic stir bar
Place container on a stir plate and stir solution for ~10 minutes until all solids dissipate

  MW NaHCO₃: 84.01 g/mol
  0.2M NaHCO₃ × 1L H₂O × (84.01g NaHCO₃/1 mol NaHCO₃)= 16.802g NaHCO₃

1M Potassium Hydrogen Phthalate (KHP) solution for titration preparation:

Weigh out ~ 20g KHP and place the solids in a metal pan

    (Actual KHP Mass= 20.424g)

Place the metal pan with the solids in an oven at 120°C for 1 hour to dry
Once dried, add the KHP solids to a 100mL volumetric flask
Next, add a large magnetic stir bar to the flask and fill with distilled H2O to the calibrated line
Allow the mixture to stir for 72 hours

 MW NaHCO3: 204.24 g/mol
 1M KHP × 0.1L H₂O × (204.24g KHP/1 mol KHP)= 20.424g KHP

Titration Procedures and Preparations

In a clean burette, pour in the 0.2M NaHCO₃ solution until it reaches the top
Turn the stopcock at the bottom of the burette to allow the solution to pass through the tip
Run the solution through the burrette until the 0.2M NaHCO₃ solution volume reaches the 0.00mL calibration mark
Record the initial starting point and then turn on the stir plate beneath the burette
Next, place one of the acetylation PVOH solutions onto the stir plate
While stirring the PVOH solution, add ~2 drops of bromothymol blue indicator
Begin titrating by turning the stopcock on the burette allowing the 0.2M NaHCO₃ solution to steadily stream out
Slow the pace of the 0.2M NaHCO₃ to drops when the PVOH solution begins to turn red in color
Once the solution completely to turns red, stop titrating by turning the stopcock to off position
Record the new 0.2M NaHCO₃ volume within the burette

REPEAT THE ABOVE STEPS AGAIN FOR THE NEXT THREE PVOH SOLUTIONS

PVOH Solution (g)	Acetic Acid (mL)	Bromothymol Blue Indicator (drops)	Initial Burette Volume(mL)	Final Burette Volume(mL)	Sodium Bicarbonate Used (mL)
1.0043	0.26	2	0.5	42.5	42
1.0052	0.52	2	0.0	43.2	43.2
1.0027	0.78	2	0.1	42.8	42.7

Notes

Only the repeating unit of PVOH (22K) was focused upon when calculating % weight of HoAc additions to each solution (titration preparation)
Molecular weight of repeating polyvinyl alcohol unit [C2H3OH] = 44.06g/mol

  1g PVOH(1 mol PVOH unit/44.06g PVOH) x (1 mol OH/1 mol PVOH)= 0.022696 mol PVOH

In addition, the 1:1 HoAc ratio solution overheated by boiling; therefore, this solution was not used for the titration analysis.
Also the actual amount of NaHCO₃ used was 16.8046g; it is not necessary to prepare solution in a volumetric flask because the solution will be standardize to find the actual concentration.

@@ Line 66: / Line 66: @@
 .82g HoAc × (1mL HoAc/1.05g HoAc)= 0.78mL HoAc
-==Titration Procedures & Solution Preparation==
+==Titration Solution Preparation==
 '''0.2M Sodium Bicarbonate (NaHCO<sub>3</sub>)solution for titration preparation:'''
 * Weigh out ~16.802g NaHCO<sub>3</sub>
@@ Line 76: / Line 76: @@
     '''MW NaHCO<sub>3</sub>: 84.01 g/mol'''
 .2M NaHCO<sub>3</sub> × 1L H<sub>2</sub>O × (84.01g NaHCO<sub>3</sub>/1 mol NaHCO<sub>3</sub>)= 16.802g NaHCO<sub>3</sub>
+'''1M Potassium Hydrogen Phthalate (KHP) solution for titration preparation:'''
+* Weigh out ~ 20g KHP and place the solids in a metal pan
+     (Actual KHP Mass= 20.424g)
+* Place the metal pan with the solids in an oven at 120°C for 1 hour to dry
+* Once dried, add the KHP solids to a 100mL volumetric flask
+* Next, add a large magnetic stir bar to the flask  and fill with distilled H2O to the calibrated line
+* Allow the mixture to stir for 72 hours
+  '''MW NaHCO3: 204.24 g/mol'''
+M KHP × 0.1L H<sub>2</sub>O × (204.24g KHP/1 mol KHP)= 20.424g KHP
+==Titration Procedures and Preparations==
+# In a clean burette, pour in the 0.2M NaHCO<sub>3</sub> solution until it reaches the top
+# Turn the stopcock at the bottom of the burette to allow the solution to pass through the tip
+# Run the solution through the burrette until the 0.2M NaHCO<sub>3</sub> solution volume reaches the 0.00mL calibration mark
+# Record the initial starting point and then turn on the stir plate beneath the burette
+# Next, place one of the acetylation PVOH solutions onto the stir plate
+# While stirring the PVOH solution, add ~2 drops of bromothymol blue indicator
+# Begin titrating by turning the stopcock on the burette allowing the 0.2M NaHCO<sub>3</sub> solution to steadily stream out
+# Slow the pace of the 0.2M NaHCO<sub>3</sub> to drops when the PVOH solution begins to turn red in color
+# Once the solution completely to turns red, stop titrating by turning the stopcock to '''off''' position
+# Record the new 0.2M NaHCO<sub>3</sub> volume within the burette
+'''REPEAT THE ABOVE STEPS AGAIN FOR THE NEXT THREE PVOH SOLUTIONS'''
+{| {{table}}
+| align="center" style="background:#f0f0f0;"|'''PVOH Solution (g)'''
+| align="center" style="background:#f0f0f0;"|'''Acetic Acid (mL)'''
+| align="center" style="background:#f0f0f0;"|'''Bromothymol Blue Indicator (drops)'''
+| align="center" style="background:#f0f0f0;"|'''Initial Burette Volume(mL)'''
+| align="center" style="background:#f0f0f0;"|'''Final Burette Volume(mL)'''
+| align="center" style="background:#f0f0f0;"|'''Sodium Bicarbonate Used (mL)'''
+|-
+| 1.0043||0.26||2||0.5||42.5||42
+|-
+| 1.0052||0.52||2||0.0||43.2||43.2
+|-
+| 1.0027||0.78||2||0.1||42.8||42.7
+|}
 ==Notes==

User:Karlena L. Brown/Notebook/PVOH Research/2012/11/09

From OpenWetWare

Revision as of 01:32, 15 December 2012

OBJECTIVES

General Formula for reactions

Acetylation Reaction Protocol & Film Preparation

Acetylation Reaction Calculations

Titration Solution Preparation

Titration Procedures and Preparations

Notes

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