Title: Overview of Mass Spectrometry
1 Overview of Mass Spectrometry
Instrumentation and Methods Chem 553
Spring 2009
2- Mass Spectrometry
- Unlike other spectroscopies!
- Others
- radiation in, modified radiation out
- infer structure from difference in
- intensity as function of frequency
- MS
- Weigh molecules and their pieces
- Vaporize
- Ionize (can be conjoint with 1.)
- Mass Sort
- Detect
- Interpret
3- Vaporize
- (1) Thermal
- Background vacuum typically 10-6 torr
- need sample at 10-3 torr vapor pressure.
- If you can get it through a GC, it's okay
- T lt250 C typically
- (organics pyrolize at gt250 C)
- Gas/GC/ Solid probe
- Sputter with beam (photon, ion, neutral)
- from solid or liquid matrix
- (3) Spray (LC, Electrospray)
42. Ionize Electron ionization M
energetic e- ? M. e- ( original e-)
Universal, cheap 1 milliAmp/1 year 0.03
typically 70 V electron acceleration Thermodynam
ics Ionization Energy (IE) ?E0K
Radical cations higher in energy than
isostructural neutral Range of IEs 4-24 eV
1 eV 23.06 kcal 98.5 kJ
5Ionization Energy IE (thermodynamics)
(formerly Ionization Potential IP) Cs
3.89 CH4 12.5 tBu
6.58 H2 15.4 PhCH2 7.6
Ne 21.6 benzene 9.2
He 24.6 MeOH 10.8 Tables NIST
Webbook http//webbook.nist.gov/chemistry -
Recombination energy M. e- ? M - Vertical
vs. adiabatic (next slide) - Appearance Energy
(of fragment) AE - Plateau region
6M.
IEv
IEad
M0
EDEv
M-.
EAad
7 Fragmentation ABC ? ABC. ? AB C.
? A BC.
? A B C
? AC B. (Rearrangements)
Mechanism of Ionization not billiard ball
70 eV 1614 kcal/mol 2 of c gt C, H, CH
- electric field of fast near-miss electron
yields electronic excited state. - If
excited state in continuum, can lose electron or
fragment with excess energy.
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9Formation of Anions by EI much rarer (usually
1-3 of amount of cations generated, if
any at all) Reason anion will detach electron
if higher in energy than neutral
(negative electron affinity) if seen, more
stable than neutral EA 0 to 10 eV
(most organic anions are 0 to 4 eV EA) but if
stable anion A e- ?(A-.) ?
A e- electron attachment yields excited
anion, which can detach the electron.
10M.
IEv
IEad
M0
EDEv
M-.
EAad
11- Electron Ionization Practical Aspects
- hot filament (wire or ribbon) emits electrons,
due - to low work function (Re, W, ThO2 )
- why is rhenium important to UT Chemistry?
- - filament current few amps (yellow hot)
- - electron beam current nanoamps to microamps
- - Often a small magnet to collimate beam
- - Continuous
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13Analyzers Magnetic sector
14Mass Selection F zq(v x B) Lorentz
equation centrifugal
force F mv2/r centripetal force
mv/z q.r.B Momentum spectrometer!
15 Thermal energy of ions or neutrals
vave (8kT/pm)1/2 145 (TK/mamu)1/2
m/s 250 m/s for mass 100 at
298K 630 m/s for mass 16
79 m/s for mass 1000
(55 mph 25 m/s) Boltzman
distribution
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18 Solution Accelerate ions through several
kilovolts! v ( 2qzVaccel/m)1/2 100
amu 124 km/sec at 8 kV (
500 thermal v) m/z qB2r2/(2Vaccel)
thermal ?v now a tiny fraction of total v.
Flight time (1 m) ca. 1 to 10 µsec B 1
Tesla means r 0.5 m For m 100 amu, If
V 1000 volts 8000 volts vaccel
44,000 m/s 124,500 m/s vthermal 0.6
0.2
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21 r (2Vm/zqB2)1/2 If B 1
Tesla and V 8 kV Then r 12.877 cm for m
100 amu 12.813 cm for m
99 amu or 6.4 mm away.
Can focus mass with either B or V.
22 Detection Spatial spread
Photoplate (original) today photoarray
detector (Fellgett
advantage) Time spread B or V sweep
in time, sequential detect at one point
Faraday cup, to electrometer. measure
current to neutralize impacting ion.
Good down to a picoamp. Picoamp 107
ions/sec
23E
E
Electron multiplier 105 - 106 amplification
24Double focusing high resolution! Single
magnetic sector m/?m ca. 2000 Due to (1)
energy, spatial spread of ions emerging
from source Answer electrostatic and magnetic
fields. High resolution (20,000 to 250,000
m/?m). "Exact mass" (to 1 ppm) ? molecular
formula.
25Velocity/energy focusing (?v) Electrostatic
sector
26Spatial focusing
27Other analyzers - Quadrupole mass filter
AC and DC fields (100's of volts at 1 MHz) are
high mass/low mass filters.
Cheap, lt2000 Da, lt1000 resolution. - Ion
Trap (J. Am. Soc Mass Spectrom. 2002 13(6).) -
Time of Flight (TOF) Rapid Commun. Mass
Spectrom. 1997 951 - Fourier Transform Ion
Cyclotron Resonance (FT-ICR)
Marshall, A.G. Accounts Chem. Res. 1985 18, 316.
Mass Spectrom. Rev.
1998 17, 1-35. Whole Issue Acc. Chem. Res. 1997
27(11) - Orbitrap J. Mass Spectrom. 2005 40,
430-43.
28Quadrupole analyser ca.. 90 of MSs in the world
Quattro HP GC/MS
29AC high pass filter. DC Low pass filter. AC
ca. 1 MHz and 100-200v
30Quads - Small - High Transmission - Insensitive
to spread in initial ion kinetic
energy Increased rod diameter increase in
transmission
increase in resolution
decrease in mass range Increase
in rod length increase in resolution
31Previous methods (magnetic sector, quadrupole)
are continuous ion beams. Now time-resolved
analysers
32Quadrupole Ion trap Time resolved (msec) He at
milliTorr to help trap ions Ion
accumulation Ion/neutral chemistry Selective ion
ejection Used in Varian GC/MS in BU 665
Used in Varian
33Time-of-flight (TOF) Time resolved
(pulsed) Resolution lt1000
34Reflectron TOF Used in DART, Voyager MALDI
35Ion Cyclotron Resonance (ICR) Mass
Spectrometry Fourier Transform Mass Spectrometry
(FTMS) FT-ICR MS Pulsed/time resolved Inherently
highest mass resolution known Trapped ions (msec
to sec to minutes) bimolecular ion-molecule
chemistry Parallels to nmr!
36FT-ICR Cell, trapping and detection
Ion made in magnetic field Ions not accelerated
37Frequencies in an ICR cell Cyclotron
fcyc qB/2?m 1535.7 BT
/mamu Axial (due to trapping plates) fax
( 2qVtrap/md2)1/2 d distance between
trapping plates (1 term) Net f
(qB/2?m)2 - qVtrap/?md21/2
38FT-ICR Signal FID
39FT-ICR resolution as a function of transient
length
Record resolution 32,000,000,000 at Mass 3
40e- mass 0.5 mmu
41- FT-ICR Performance
- Resolution (mass x resolution const record
30x109) - Mass Accuracy
- Mass range
- Dynamic Range more limited than others
- Sensitivity 1 ion (remeasurement!)
- positive/negative switching near-instant
- Magnetic field higher the better
- - Background Pressure lower the better
- Acquisition time msec
- Signal averaging remeasurement of same ions
42Orbitrap MS Makarov, A. J. Mass Spectrom. 40
(2005) 430
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44Other Sources and Hyphenated combinations!
45GC/MS open-split interface
46LC/MS Micro LC into 1 torr vacuum Differential
pumping EI etc. after desolvation
47- Chemical Ionization soft ionization
- 1 torr CH4 in source (high pressure)
- plus analyte at 10-3 torr or so
- CH4 e- ? CH4.
- CH4 . CH4 ? CH5 CH3. self-ionization
- CH5 B ? BH CH4
- less exothermic ionization (0-4 eV) means little
fragmentation, - often just quasi-molecular ion BH
- Other reagent gases, specific for functional
groups - Negative ions (electron attachment or
deprotonation) -
48Negative Ions Electron attachment e- ArX
? ArX-. selective for Ar-EWG Dissociative
Attachment XY e- ? X. Y- NF3 ?
F- N2O ? O-. ( RH ? HO-) NH3 ?
NH2- Ac2O ? AcO-
49Tandem MS, or MS/MS the structure of ions
triple quadrupole MS
Also multiple magnetic sector instruments,
FT-ICR, Ion Trap
50iBuC(O)Et MW 114
51Sputtering Methods
Energetic Beam onto surface SIMS Secondary Ion
Mass Spec Ion beams easy to create, but
charges the sample, with degradation of
signal
FAB Fast Atom Bombardment 8 kV neutral Xe or
Ar beam, onto glycerol (liquid in vacuum!)
drop with dissolved analyte
MALDI matrix assisted Laser Desoprtion and
Ionization photon beam (neutral and easy!)
52MALDI Matrix Assisted Laser Desorption/Ionization
Typical matrix substituted cinnamic acid,
ArCHCHCOOH Absorbs at laser wavelength
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54 External Sources Atmospheric Pressure
Ionization Differential pumping Ion guides
55 Electrospray Ionization (ESI) from LC, but
ionization is in liquid phase
56One molecule, variously charged peptides 2
of 20 AA side chains are basic and
positively charged ca. 10 charges/10,000 amu
57MW 5727 nominal 5730.6 (3.6) exact 5733.6
(6.6) ave C254H377N65O75S6
58Tetramer Mass 147,550 daltons
59Calibration Perfluorokerosene (CF2 50 C2F4
100) PFTBA N(C4F9)3 671 PEG H(OCH2CH2)nOH
steps of 44 Ultramark (1621) perfluoroalkylphosph
azene
60DART Direct Analysis in Real Time
61DART Chemistry
He discharge ? He. (filtered out) e-
He
metastable ca. 19 eV Cations He H2O ?
H2O. e- H2O. H2O ? H3O HO. H3O
B ? BH H2O Anions e- O2 ?
O2-. O2-. B ? (B-H)- HOO.
62APCI Atmospheric Pressure Chemical Ionization
LC source, gas phase ionization
APPI Atmospheric Pressure Photoionization
63DESI Desorption Electrospray Ionization Atmosphe
ric pressure Electrospray beam onto open
surface from wand Desorbed material sucked
into vacuum orifice
Handheld Startrek Tricorder! (for chemicals,
not biologicals)