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Synthesis of Acetanilide

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Thus, Amines are strongly activating and are ortho - para directing. ... Add a small amount of NORIT (fine-grained activated charcoal) to reaction flask ... – PowerPoint PPT presentation

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Title: Synthesis of Acetanilide


1
Synthesis of Acetanilide
  • Synthesis of Acetanilide Nucleophilic Acyl
    Substitution (addition / elimination) reaction
    between Aniline and Acetic Anhydride
  • References
  • Pavia p. 65 68
  • Schornick http//classweb.gmu.edu/jschorni/chem31
    8

2
Synthesis of Acetanilide
  • Overview
  • Synthesis of Acetanilide Nucleophilic Acyl
    Substitution (addition / elimination) reaction
    between Aniline and Acetic Anhydride
  • Determine Mass, Moles, Molar Ratio, Limiting
    Reagent, Theoretical Yield
  • Recrystallize Product (from water)
  • Vacuum Filtration
  • Dry Product
  • Mass and Experimental Yield of Product
  • Melting Point

3
Synthesis of Acetanilide
  • Laboratory Report
  • Synthesis Experiment
  • Mass, Moles, Molar Ratio, Limiting Reagent,
    Theoretical Yield
  • Procedures
  • Title Concise Mass reagent, Vacuum Filtration,
    Recrystallization, Melting Point, etc.
  • Materials Equipment - 2 Columns in list
    (bullet) form)Note include all reagents and
    principal equipment

4
Synthesis of Acetanilide
  • Description of Procedure
  • Use list (bullet) form
  • Concise, but complete
  • Use your own words - Dont copy book!!
  • Neat, logically designed template to present
    results
  • Summary
  • Paragraph summarizing the experimental results
    and computed results
  • Analysis Conclusions
  • Limiting reagent
  • Discuss the reaction in context with the results
    you obtained what evidence to you have to
    indicate you got the intended product?
  • Yield How could the experimental process be
    improved?.

5
Synthesis of Acetanilide
  • Background
  • Acetanilide is an Amide (RCONRR)
  • (MW 135.17, MP - 114.3oC)Note the Carbonyl
    Group!
  • Aniline is an Amine (RNRR)
  • (MW 92.13, BP - 184oC)
  • Acetic Anhydride, an Acid Anhydride,is a source
    of Acyl groups
  • (MW - 102.1, BP - 139.9oC, Den 1.08 g/mL)
  • Synthesis
  • Amines can be treated (Acylated, adding a
    Carbonyl and losing a proton) using Acetic
    Anhydride as a source of an Acyl group to form
    an Amide.

6
Synthesis of Acetanilide
  • Amines
  • Amines are similar to Amides (Amides have a
    Carbonyl group
  • The non-bonding electron pair on the Nitrogen
    atom is readily available for donation or it can
    accept a proton.
  • Thus, Amines are basic (weakly)
  • Amines are more susceptible to oxidation (gain
    oxygen or lose protons) than Amides.
  • The electron pair is available to an aromatic
    ring increasing electron density in the ring,
    especially at the ortho para positions.
  • Amides
  • Electron pair on the Nitrogen in an Amide is less
    likely to move to aromatic ring.
  • An Amide is stabilized by the resonance involving
    the nonbonding pair of electrons on the Nitrogen
    atom and the strong electron-withdrawing effect
    of the Carbonyl group.
  • The strong electron withdrawing Carbonyl oxygen
    takes on a partial negative charge.
  • Protonation of an Amide occurs on the Oxygen
    rather than the Nitrogen.

7
Synthesis of Acetanilide
  • Amines
  • Thus, Amines are strongly activating and are
    ortho - para directing.
  • Amines are easily oxidized (lose electrons,
    protons, gain oxygen).
  • Oxidation of a group substituted on the aromatic
    ring will also result in oxidation of the Amine
    group.
  • The Amine can be protected by first acylating it
    to the Amide form.
  • Amides
  • The Carbonyl Carbon atom competes for the
    Nitrogen electron pair forming a NC double bond.
  • Thus, Amides are less basic than Amines.
  • Amides are also ortho- para directing, but are
    only moderately activating.
  • Substitution groups on the ring of an aromatic
    Amide can be oxidized with little impact on the
    Amide group, thus protecting its use as an Amine.
  • The Amide can then be hydrolyzed to return to the
    Amine form.

8
Synthesis of Acetanilide
  • The Reaction
  • The Mechanism

Acetic Anhydride Resonance
9
Synthesis of Acetanilide
  • Todays Reaction
  • The Synthesis of Acetanilide, an Amide, through a
    Nucleophilic Acyl Substitution (addition /
    elimination) reaction between Aniline, an Amine,
    acting as the Nucleophile, and an Acyl group from
    Acetic Anhydride acting as the Electrophile.
  • Safety
  • Acetic Anhydride causes irritation of tissue,
    especially the nasal passages.
  • Aniline is toxic, can be absorbed through the
    skin
  • Waste Disposal
  • Put all Organics in marked jar in hood.
  • Put all Inorganic (Aqueous) solutions down drain
    with lots of water.

10
Synthesis of Acetanilide
  • General Steps
  • Determine Mass Moles of Reactants
  • Aniline Acetic Anhydride
  • Determine Molar Ratio, Limiting Reagent,
    Theoretical Yield
  • Mix Reactants in Erlenmeyer Flask
  • Recrystallize Product
  • Add Water Heat to Dissolve solids
  • Add Norite Charcoal (only if directed by
    instructor)
  • Filter Hot Solution through Fluted Gravity filter

11
Synthesis of Acetanilide
  • General Steps (Cont)
  • Cool slowly to room temperature
  • Place water/crystal mixture in Ice/Water bath
  • Vacuum Filter Crystals
  • Dry Crystals in oven at 75oC for 30 minutes
  • Weigh Crystals
  • Determine yield and percent yield
  • Determine Melting Point

12
Synthesis of Acetanilide
  • Procedure
  • Obtain vial containing approximately 2 g Aniline
    from instructor. Determine mass to nearest
    0.001g.
  • Empty content into 125 Erlenmeyer flask.
  • Reweigh empty vial and compute mass of Aniline.
  • Add 15 mL Distilled Water with swirling.
  • Slowly, with swirling, add approximately 2.7 g
    (2.5 mL) Acetic Anhydride weighed to nearest
    0.001 g). Note any changes.
  • In your report compute moles, determine molar
    ratio, limiting reagent, theoretical yield

13
Synthesis of Acetanilide
  • Once the crude Acetanilide precipitates, add 40
    mL Distilled Water and a carborundum boiling chip
    to the flask.
  • Heat on hot plate until all solid oily
    materials have dissolved.
  • DO NOT remove the 1 mL aliquot as directed in the
    text.
  • Note Do step 10 only if the instructor tells
    you to do so
  • Otherwise, go directly to step 11 to
    Recrystallize product

14
Synthesis of Acetanilide
  • Procedure (Cont)
  • Decolorize the Reaction Mixture
  • Add a small amount of NORIT (fine-grained
    activated charcoal) to reaction flask
  • Assemble Gravimetric filtration unit using fluted
    filter paper (a fluted filter paper exposes more
    filter area to liquid)
  • Prepare additional 25 mL boiling Distilled Water
    to be used as washing solvent in filtration
  • Warm short-stem funnel (in drawer beneath hood)
    with 10 mL of warmer water

15
Synthesis of Acetanilide
  • Procedure (Cont)
  • Decolorize the Mixture (Cont)
  • Prepare fluted filter paper and place in funnel.
  • Bring the Acetanilide / Charcoal mixture to a
    boil,
  • Keep the solution hot (not boiling) on hot plate
    until poured into funnel.
  • Filter hot Acetanilide / Charcoal mixture as
    quickly as possible, but in small portions.
  • Keep new collection flask warm also in order to
    prevent formation of crystals in the funnel.
  • Add additional hot water to funnel to dissolve
    any crystals

16
Synthesis of Acetanilide
  • Procedure (Cont)
  • Recrystallize the Product
  • Cool solution SLOWLY to room temperature
  • Place flask in ice bath for 10 minutes
  • Setup Buchner funnel
  • Vacuum filter crystals, washing crystals with a
    few mL of cold distilled water
  • Continue vacuum for at least 5 minutes to
    maximize drying

17
Synthesis of Acetanilide
  • Spread crystals evenly on pre-weighed watch
    glass.
  • Put crystals in oven at 75oC for 30 minutes.
  • Cool for 5 minutes
  • Determine mass of dried product.
  • Compute percent yield.
  • Determine melting point
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