10.5 Halogenalkanes (Haloalkanes) - PowerPoint PPT Presentation

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10.5 Halogenalkanes (Haloalkanes)

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10.5 Halogenalkanes (Haloalkanes) 10.5.1 Describe, using equations, the substitution reactions of halogenoalkanes with sodium hydroxide. 10.5.2 Explain the ... – PowerPoint PPT presentation

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Title: 10.5 Halogenalkanes (Haloalkanes)


1
10.5 Halogenalkanes (Haloalkanes)
  • 10.5.1
  • Describe, using equations, the substitution
    reactions of halogenoalkanes with sodium
    hydroxide.
  • 10.5.2
  • Explain the substitution reactions of
    halogenoalkanes with sodium hydroxide in terms of
    SN1 and SN2 mechanisms.

2
Haloalkanes
  • CnH2n1X (X halogen)
  • Saturated compound, so are involved with
    substitution reactions
  • Polar molecule, so entirely different mechanism
    for substitution.

3
Polarity
  • The halogen is much more electronegative than the
    carbon so it pulls the electrons in the bond
    closer to itself, gaining a partially negative
    charge, making the carbon it is bonded to
    partially positive (or electron deficient)

4
Substitution Reactions
  • In a substitution reaction, one atom or group of
    atoms, takes the place of another in a molecule
  • Example
  • (CH3)3CCl NaOH ? (CH3)3 COH NaCl

5
Nucleophilic Substitution (SN)
  • A nucleophile is a molecule or ion that has a
    high electron density, so its attracted to atoms
    in molecules with a lower electron density.
  • It may replace another group in an organic
    molecule.
  • They are attracted to the electron deficient
    carbon in the haloalkane
  • Typical nucleophiles H2O, OH-, NH3, CN-

6
  • During reaction, the C-X bond breaks, and the
    halide (ion) is released
  • Both electrons from the bond go to the halide
    (heterolytic fission)
  • The group that the nucleophile replaces is called
    the leaving group

7
Nucleophilic Substitution
  • One covalent bond is broken as a new covalent
    bond is formed
  • The general form for the reaction is
  • Nu- R-X ? R-Nu X-

Nucleophile haloalkane ? Substituted
Product Leaving group/halide
8
Nucleophilic Substitution
  • The bond to the leaving group (C-X) is broken
  • The leaving group takes both electrons that
    formed the bond with it (X-)
  • The nucleophile provides the electrons to form
    the new bond ( OH-)

9
Nucleophilic Substitution
  • Haloalkanes commonly undergo nucleolophilic
    substitution reactions. The nucleophile
    displaces the halide leaving group from the
    haloalkane.
  • There are two common mechanisms (detailed
    pathway/series of steps) for nucleophilic
    substitutions to occur. They are known as SN1
    and SN2.

10
Nucleophilic Substitution Bimolecular or SN2
  • A reaction is bimolecular when the rate depends
    on both the concentration of the haloalkane and
    the nucleophile.
  • SN2 mechanisms occur most readily with methyl
    compounds and primary haloalkanes

11
SN2 Mechanism

The general form for an SN2 mechanism is shown
above. Nu- nucleophile
12
IB wants you to use curly arrows to show the
movement of electrons
13
Example of SN2 bromoethane reacting with NaOH to
form ethanol and bromide. Note NaOH, only use
OH-
14
Nucleophilic Substitution Unimolecular or SN1
  • A unimolecular reaction occurs when the rate of
    reaction depends on the concentration of the
    haloalkane but not the nucleophile.
  • A unimolecular reaction is a two step process
    since the haloalkane and the nucleophile cannot
    both appear in the rate determining step
  • SN1 mechanisms occur most readily with tertiary
    haloalkanes and some secondary haloalkanes.

15
SN1 Mechanism

The general form for an SN1 mechanism is shown
above. Nu- nucleophile
16
SN1 Mechanism

The first step is the formation of the
carbocation. It is the slow step due to steric
hindrance (bulky groups around the carbon make it
difficult for the incoming OH- to attack the
carbon
17
Resources
  • Pearson Baccalaureate HL chemistry text, Brown
    and Ford
  • Organic mechanisms powerpoint by L Scheffler,
    Lincoln High School
  • http//www.chemguide.co.uk/mechanisms/nucsub/hydro
    xide.htmltop
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