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Transcript

Introduction to Mass Spectrometry (MS)

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1
A mass spectrometer produces a spectrum of masses
based on the structure of a molecule.
The x-axis of a mass spectrum represents the masses of
ions produced (m/z)
The y-axis represents the relative abundance of each ion
produced
The pattern of ions obtained and their abundance is
characteristic of the structure of a particular molecule

Ionization (the formation of ions)


A molecule is bombarded with a beam of high energy
electrons
An electron is dislodged from the molecule by the
impact, leaving a positively charged ion with an
unpaired electron (a radical cation)

2
This initial ion is called the molecular ion (M+.) because it has
the same molecular weight as the analyte

Fragmentation

Excess vibrational energy is imparted to the molecular ion by
collision with the electron beam - this causes fragmentation

3
The fragmentation pattern is highly characteristic of the structure
of the molecule

Fragmentation by Cleavage at a Single
Bond

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Cleavage of a radical cation gives a radical and
a cation but only the cation is observable by MS
In general the fragmentation proceeds to give
mainly the most stable carbocation

11
In the spectrum of propane the peak at 29 is the
base peak (most abundant) 100% and the peak at
15 is 5.6%

Fragmentation Equations

The M+. Ion is formed by loss of one of its most
loosely held electrons


12
If nonbonding electron pairs or pi electrons are
present, an electron from one of these locations is
usually lost by electron impact to form M+.
In molecules with only C-C and C-H bonds, the
location of the lone electron cannot be
predicted and the formula is written to reflect
this using brackets
Example: The spectrum of hexane
13
Example: spectrum of neopentane
Fragmentation of neopentane shows the propensity of cleavage
to
occur at a branch point leading to a relatively stable
carbocation
o
The formation of the 3 carbocation is so favored that almost
no
molecular ion is detected

14

Carbocations stabilized by resonance are also formed
preferentially

15
Alkenes fragment to give resonance-stabilized allylic
carbocations

Carbocations stabilized by resonance are also formed
preferentially


Carbon-carbon bonds next to an atom with an
unshared electron pair break readily to yield a
resonance stabilized carbocation

15
Alkenes fragment to give resonance-stabilized allylic
carbocations
Z=N, O, or S R may be H

Carbocations stabilized by resonance are also formed
preferentially


Carbon-carbon bonds next to an atom with an
unshared electron pair break readily to yield a
resonance stabilized carbocation

15
Alkenes fragment to give resonance-stabilized allylic
carbocations
Z=N, O, or S R may be H

16
Carbon-carbon bonds next to carbonyl groups
fragment readily to yield resonance stabilized
acylium ions

16
Carbon-carbon bonds next to carbonyl groups
fragment readily to yield resonance stabilized
acylium ions

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17
Alkyl substituted benzenes often lose a
hydrogen or alkyl group to yield the relatively
stable tropylium ion
Other substituted benzenes usually lose their
substitutents to yield a phenyl cation

Fragmentation by Cleavage of 2 Bonds
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18
The products are a new radical cation and a
neutral molecule
Alcohols usually show an M+.-18 peak from loss
of water
The masses of molecular and fragment ions also
reflect the electron count, depending on the number
of nitrogen atoms in the species.
Ions with no nitrogen or an even # N atoms
Molecular Ion
odd-electron ions
even-number mass
Fragment Ions
even-electron ions
odd-number mass
Ions having an odd # N atoms
Molecular Ion
odd-electron ions
odd-number mass
Fragment Ions
even-electron ions
even-number mass
The masses of molecular and fragment ions also
reflect the electron count, depending on the number
of nitrogen atoms in the species.
Ions with no nitrogen or an even # N atoms
Molecular Ion
odd-electron ions
even-number mass
Fragment Ions
even-electron ions
odd-number mass
Ions having an odd # N atoms
Molecular Ion
odd-electron ions
odd-number mass
Fragment Ions
even-electron ions
even-number mass
http://www.cem.msu.edu/~reusch/VirtualText/
Spectrpy/MassSpec/masspec1.htm