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Mass Spectrometry 12-1 to 12-4

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Presentation on theme: "Mass Spectrometry 12-1 to 12-4"— Presentation transcript:

1 Mass Spectrometry 12-1 to 12-4

2 What does MS do? Analysis technique that reveals:
Molecular Weight of a pure compound Molecular Formula (High Resolution MS) Some structural information “Chemical Fingerprint” that can be matched to a known compound.

3 Advantages + Very very small sample size
+ Can be coupled with Gas Chromatography + Complementary to UV/vis, IR, NMR + Versatile: many techniques have been developed, from small organics to proteins and DNA. + Data base friendly

4 Disadvantages - Destructive to sample - Limited structural information
- Too sensitive – background noise a problem - Expensive & Sophisticated instrument

5

6 Take that, you foul machine!

7 Applications Detect and identify the use of steroids in athletes
Monitor the breath of patients by anesthesiologists during surgery Determine the composition of molecular species found in space Determine whether honey is adulterated with corn syrup Locate oil deposits by measuring petroleum precursors in rock Monitor fermentation processes for the biotechnology industry Detect dioxins in contaminated fish Determine gene damage from environmental causes Establish the elemental composition of semiconductor materials

8 How does MS work? Electron Impact Ionization if most popular fragmentation technique A stream of high energy electrons are directed towards organic molecules The electrons fragment the molecules in rational and repeatable ways Positive ions that are produced are separated by their mass to charge ratio

9

10

11 Gas Chromatography and
Mass Spectrometry (GC-MS): A match made in analytical chemistry heaven

12 Detailed Fragmentation of Methane

13 Billiards Analogy?

14 Piniata?

15 Spectra and Data Table for the Electron Ionization of Methane

16 High Resolution MS can determine molecular formula
M.W. = 44 C3H8  3(12) + 8( ) = C2H4O  2(12) + 4( ) = N2O  2( ) = CO2  ( ) =

17 Some atoms reveal their presence by isotope patterns

18

19 Fragmentation of Alkanes

20 MS fragmentation of pentane

21

22 MS fragmentation of pentane

23 Dimethylpentane

24 hexane

25

26 Fragmentation of molecules with oxygen and/or nitrogen

27 Unshared Electrons on “O” and “N”
usually get knocked off first Fragmentation occurs in a chemically rational and predictable way

28

29 However, Fragment abundance is difficult to predict

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31 Gas Chromatography Mass Spectrometry
GC GC MS

32 MS  Molecular Structure

33 MS fragmentation of 2-pentanone

34 m/z = 43 m/z = 87 m/z = 71 m/z = 58

35 MS fragmentation of 2-pentanone

36 Time-of-Flight Instruments

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