Mass Spectrometry

Question 1

What are the fundamental steps in mass spectrometry?

Answer 1

1) Molecules are converted to ions
2) Ions are isolated in a vacuum to prevent ion-molecule interactions
3) Ions are separated based on their mass/charge ratio

Question 2

What are 3 ionisation methods?

Answer 2

• Electron Ionisation (EI)
• Electrospray Ionisation (ESI)
• Matrix assisted laser desorption ionisation (MALDI)

Question 3

How does electron ionisation (EI) work?

Answer 3

Gas phase molecules are bombarded by a beam of high energy electrons. An electron passing close to a molecule extracts an electron. The molecule gains additional energy from the electron beam

Question 4

What type of ion does electron ionisation generate?

Answer 4

A radical cation (odd-electron ion)

Question 5

What is the molecular ion?

Answer 5

The highest m/z peak (ignoring isotopes)

Question 6

What is the base peak?

Answer 6

The peak with the highest intensity scaled to 100%

Question 7

What information can be deducted from the molecular ion?

Answer 7

• mass of the molecule
• elemental composition of the ion

Question 8

What information can be deducted from fragment ions?

Answer 8

• structure of the ion
• stability of the fragment ions

Question 9

What occurs to the bond length of molecules during ionisation and why?

Answer 9

The bond length increases as many vibrational states are populated

Question 10

What occurs when the ionisation energy is greater than that of the highest vibrational state?

Answer 10

Bond rupture - weak bonds break forming fragment ions

Question 11

An electron beam is not discrete. What does this mean in relation to the appearance of the molecular ion peak?

Answer 11

The electron beam has many different energies. The molecular ion peaks is likely to appear as some electrons will not have enough energy to cause bond rupture

Question 12

ESI and MALDI lead to the formation of positive even electron adduct ions. Why are these ions not referred to as the molecular ion?

Answer 12

The adduct ions contain H or Na and so they are referred to as a protonated or sodiated molecules respectively

Question 13

What is the appearance potential?

Answer 13

The energy in which fragment ions may start appearing/the energy that is larger than the highest vibrational state of the molecule

Question 14

Name 2 soft ionisation techniques

Answer 14

• Chemical Ionisation (CI)
• Atmospheric pressure chemical ionisation (APCI)
  ALSO:
• Electrospray
• MALDI

Question 15

What are the advantages of using soft ionisation techniques?

Answer 15

• Suitable for involatile or unstable compounds
• Generates adduct ions with little residual energy/prominent molecular ion peak and low fragmentation

Question 16

How does Chemical Ionisation (CI) work?

Answer 16

• A reagent gas (methane, ammonia, isobutane) is ionised by a modified EI source
• Ionised reagent gas undergoes reactions to form an ionising agent
• Reagent gas reacts to for an EE adduct ion with the analyte

Question 17

What are the disadvantages of Chemical Ionisation (CI)?

Answer 17

• High energy need to ionise reagent gas of a high pressure
• Unwanted side reactions result in residue and so needs to be cleaned regularly

Question 18

In CI what unique event can occur when using ammonia as a regent gas?

Answer 18

Ammonia can become the adduct ion

Question 19

Does methane supply more or less energy than ammonia to the analyte during CI? Why and what are the consequences in the mass peak spectrum?

Answer 19

Ionised methane supplies more energy to the analyte than ammonia as it has a lower proton affinity. More energy to the analyte results in more fragmentation and less intensity in the molecular adduct ion

Question 20

How does Atmospheric Pressure Chemical Ionisation (APCI) work?

Answer 20

1) Warm nitrogen gas convert analyte in a solvent to a mist
2) A heater vaporises the solvent and analyte
3) A corona discharge needle emits electrons and ionises nitrogen gas results in secondary reactions producing reagent ions (protonated water and water clusters)
4) Reagent ions transfer protons to analyte

Question 21

Where is the most likely site for ionisation to form a protonated adduct ion?

Answer 21

The site with the highest proton affinity - usually at nitrogen

Question 22

What are isotopologues?

Answer 22

Molecules that differ only in the isotopic composition in on ore more of their atoms

Question 23

What is the nominal mass?

Answer 23

The value calculated from the most abundant isotope of each element rounded DOWN to the nearest integer

Question 24

What is the monoisotopic mass?

Answer 24

The lowest isotopologue

Question 25

What is the equation for resolution?

Answer 25

(m/z) / (Δm/z)

Δm/z - the full width of a peak at half its maximum height

Question 26

What is the mass defect?

Answer 26

The difference between the nominal mass of a species and its monoisotopic mass

Question 27

What are isobars?

Answer 27

Chemical species with the same nominal mass but different exact masses

Question 28

At low resolutions, what do the peak intensities of isotope clusters reflect?

Answer 28

The natural relative abundances of the isotopes

Question 29

Nitrogen is an A+1 type element. What does that mean?

Answer 29

That is has two naturally occurring isotopes

Question 30

Chlorine is an A+2 type element which means it has three naturally occurring isotopes, true of false?

Answer 30

False - it only has two but the second isotope is +2u larger than the most abundant isotope and therefore it in an A+2 type element

Question 31

What does the simplification of an ion cluster suggest when moving from right to left?

Answer 31

Loss of an isotope

Question 32

13C is 1.1% abundant, for a molecule with 9 carbons what is the possibility that any one of them will be 13 C?

Answer 32

1.1% * 9 = 9.9% for any carbon to be 13 C

Question 33

What are the steps in estimating the number of carbons in a molecule?

Answer 33

1) Scale the molecular ion peak (M) to 100%
2) Multiply the intensity of the M+1 peak by the same factor
3) Divide M+1 by the isotope abundance (for 13C it is 1.1%) and round DOWN

Question 34

Assuming an error of ±10% how do we determine if calculation of the number of atoms is likely?

Answer 34

• Make an estimate range with ±10% of our calculated number of atoms
• See if the value falls within n±1 range
• If it does the calculated value is likely
• If not then our value is unlikely

Question 35

What are the steps in estimating the number of a certain elements in a molecule?

Answer 35

1) Scale the molecular ion peak (M) to 100%
2) Multiply intensity of other peaks by the same factor
3) Consult data book for elements that have similar abundances and divide down by that abundance
4) Correct remaining peaks for other isotopes of that element

Question 36

Howdo the natural abundances (from the data book) need to be changed?

Answer 36

They must be changed to relative abundances against the most abundant isotope of that element

Question 37

What is the degree unsaturation?

Answer 37

The amount of rings and/or double bonds

Question 38

What is the equation for the degree of unsaturation?

Answer 38

= x - 1/2y + 1/2z + 1
x: number of tetravalent atoms
y: monovalent atoms
z: trivalent atoms

Question 39

What is the nitrogen rule?

Answer 39

• compounds with odd numbers of N atoms give a molecular ion peak at odd m/z values
• compounds with even number of N atoms (or no N atoms) give a molecular ion peaks at even m/z values

Question 40

Ionisation prefers to remove an electron with the lowest ionisation energy. Rank the bond orbitals from lowest ionisation energy to highest

Answer 40

• Non-bonding orbital
• π-orbital
• σ-orbital

Question 41

What does fragmentation generate and which are detected in mass spec?

Answer 41

Ions, radicals and molecules - only ions are detected

Question 42

How do OE ions gives rise to EE fragment ions?

Answer 42

By cleavage of one bond

Question 43

How do OE ions give rise to OE fragment ions?

Answer 43

By cleavage of two bonds (by rearrangement or ring cleavage)

Question 44

EE ions usually give rise to OE or EE fragment ions?
(The even electron rule)

Answer 44

EE - separation of an electron pair is unfavourable

Question 45

What are the two possible effects that can occur to radical cations when undergoing fragmentation?

Answer 45

Charge retention or charge migration

Question 46

What is charge retention during fragmentation?

Answer 46

The fragmentation reaction occurs and the charge remains on the part of the molecule where the ionisation occurs

Question 47

What is charge migration during fragmentation?

Answer 47

During fragmentation there is a redistribution of electron density to form a fragment that has the greatest stabilisation

Question 48

What are the important aspects to identify in mass spectra?

Answer 48

• The molecular ion peak
• The primary fragment ion and complementary fragment ions

Question 49

For a molecule AB how would you calculate the m/z for B+ if you knew M+ and A+ ?

Answer 49

B+ = M+ - A+

Question 50

What is Stevensons rule?

Answer 50

(Where cleavage of a single bond generates more than one ion and radical pair:)
- The fragment with the higher IE retains the unpaired electron (radical)
- The other fragment becomes the ion

Question 51

Using Stevensons rule; If the IE of methane is 12.6EV and the IE for propane is 10.9EV, when butane fragments which is the ion and which is the radical?

Answer 51

Methane has a higher IE and so is the radical and propane has the lower IE and so is the ion. The inverse IS possible however this way round is favoured

Question 52

What is an ion series?

Answer 52

EE ions that differ by 14units that are characteristic of a functional group

Question 53

Why do straight chain alkanes have a loss of 14units between the ion peaks?

Answer 53

The alkane ions undergo secondary fragmentation with the loss of a stable ethene molecule (mass of 14units)

Question 54

What are the 3 factors that effect ion stabilisation?

Answer 54

• Cation stability
• Lone pair resonance stability
• Pi electron resonance stability

Question 55

If ion abundance increases in reverse order to stability of the cation, what is the driving force?

Answer 55

The size of the radical - the loss of the largest radical is favoured

Question 56

What is Fields rule?

Answer 56

EE decompositions forming the same product ion eject the neutral molecule with lowest proton affinity

Question 57

EE ions can eject both radicals and neutral molecules, true or false?

Answer 57

False - EE ions can only eject neutral molecules

Question 58

Define homolytic and herterolytic cleavages

Answer 58

Homolytic cleavages involve 1e (α-cleavage)
Heterolytic cleavages involve 2e (i-cleavage)

Question 59

What is radical site initiation?

Answer 59

α-cleavage occurs due to a strong preference for radical electron to be paired

Question 60

When effects radical site initiation?

Answer 60

How good the radical site is at donating electrons (the heteroatom)

Question 61

What is the formula for an acylium ion?

Answer 61

R-C≡O+

Question 62

What is the formula for an allyl ion?

Answer 62

H2C+-CH=CH2

Question 63

What is charge site initiation?

Answer 63

(i-cleavage) Heterolytic bond cleavage due to a strong attraction of an electron pair towards a positive charge

Question 64

For OE ions which is preferred, radical site initiation or charge site initiation?

Answer 64

Radical site initiation (α-cleavage)

Question 65

For EE ions which is preferred, radical site initiation or charge site initiation?

Answer 65

Only charge site initiation is possible (i-cleavage)

Question 66

What effects charge site initiation?

Answer 66

How electronegative the atom obtaining the electrons is (the heteroatom)

Question 67

What type of cleavage occurs during the decomposition of cycloalkanes?

Answer 67

α-cleavage (radical site initiation)

Question 68

What is the Diels-Alder reaction?

Answer 68

An alkene reacting with a diene to produce a cycloalkene

Question 69

What are the two pathways in the Retro-Diels-Alder reaction and which is preferred for cyclohexene?

Answer 69

1) Ionised diene + alkene (secondary α-cleavage) - preferred
2) diene + ionised alkene (secondary i-cleavage)

Question 70

In the retro-diels-alder reaction, how can the ionised alkene be the preferred route?

Answer 70

Resonance can lower the IE of the ionised alkene formed - it is stabilised and the i-clevage is preferred

Question 71

What is the McLafferty rearrangement?

Answer 71

γ-H rearrangement to an unsaturated group (a double bond) with β-cleavage

Question 72

For the McLafferty rearrangement what influences if α or i-cleavage occurs?

Answer 72

The R group: methyl groups favour α and benzene groups favour i

Question 73

What fragment ion is common for substituted benzene molecules and why is it stable?

Answer 73

Tropylium ion (m/z= 91) - it obeys Huckel’s rule (it is aromatic)

Question 74

What are produced when an OE undergoes i-cleavage?

Answer 74

A cation and a radical

Question 75

If the m/z loss from molecular ion peak to fragment peak is EVEN, is the fragment species OE or EE?

Answer 75

OE

Question 76

If the m/z loss from molecular ion peak to fragment peak is ODD, is the fragment species OE or EE?

Answer 76

EE

Question 77

What is a hydrogen rearrangement (rH)?

Answer 77

A radical site on an unsaturated heteroatom can accept a H

Question 78

What is a rearrangement displacement (rd)?

Answer 78

Formation of a bond between a radical site and a distant atom can lead to cyclisation and displacement of the radical

Question 79

Is rearrangement displacement charge retention or

Question 80

Does charge site rearrangements prefer OE or EE ions?

Answer 80

EE ions

Question 81

Where does the charge site move to in charge site rearrangements?

Answer 81

It doesn’t move

Question 82

What are two solutions for complicated analysing complex mass spec?

Answer 82

• Chemical Modification
• Tandem Mass spectrometry

Question 83

What is the isotope method and what does it help identify?

Answer 83

• Identifies double and triple bonds
• Deuterium and Wilkinson’s catalysts
  2 Deuterium added is a double bond
  3 Deuterium added is a triple bond

Question 84

What is the chemical labelling method and what does it help identify?

Answer 84

• Identifies double bonds
• Iodine and dimethyl disulfide
• Fragmentation occurs between the two groups

Question 85

In a triple quadrupole mass spectrometer, which quadrupole(s) perform mass analysis?

Answer 85

1st and 3rd

Question 86

What is CID?

Answer 86

Collision induced dissociation - collisions between ions and collision gas transfers energy to the ions causing new ions to be produced

Question 87

What are the three Tandam MS operating modes and what are there applications?

Answer 87

1) Product ion scan: investigate sub-structures of precursor ions
2) Neutral loss scan: identify compounds having common neutral loss
3) Precursor ion scan: identify origins of ions in the spectrum

Question 88

For a product ion scan in Tandem MS, what does each quadrupole do?

Answer 88

Q1: single m/z value
Q2: CID
Q3: scan m/z range

Question 89

For a neutral loss scan in Tandem MS, what does each quadrupole do?

Answer 89

Q1: scan m/z range
Q2: CID
Q3: offset scan m/z range

Question 90

For a precursor ion scan in Tandem MS, what does each quadrupole do?

Answer 90

Q1: scan m/z range
Q2: CID
Q3: sing m/z range