Put yourself in these situations, regularly encountered by professional chemists:

 • You notice an unexpected product from a chemical reaction. N O Cl NH Cl

 • You discover a previously unknown compound in a plant extract.

• You detect a suspected food contaminant and need to know what it is.

 • You are routinely checking purity during the manufacture of a drug.

 In all cases, except perhaps the second, you would need a quick and reliable answer. Suppose

you are trying to identify the heart drug propranolol. You would fi rst want to know the molecular weight and atomic composition, and these would come from a mass spectrum: proprano

lol has a molecular weight (relative molecular mass) of 259 and the composition C16H21NO2.

Next you would need the carbon skeleton—this would come from NMR, which would reveal

the three fragments shown below.

There are many ways in which the fragments seen by NMR could be joined together and at this stage you would have no idea whether the oxygen atoms were present as OH groups or as ethers, whether the nitrogen would be an amine or not, and whether Y and Z might or might not be the same atom, say N. More information comes from the infrared spectrum, which highlights the functional groups, and which would show that there is an OH and an NH in the molecule but not other functional groups such as CN or NO2. This still leaves a variety of possible structures, and these could finally be distinguished by the details revealed by 1H NMR. We will deal with 1H NMR only briefly in this chapter because it is more complicated than 13C NMR, but we will return to it in Chapter 13. Now we must go through each of these methods and see how they give us information about the propranolol molecule.

مواضيع ذات صلة

Chemical reactions

Rotation and rigidity

The carbonyl group

We can hybridize any atoms

Hybridization of atomic orbitals

Molecular orbitals of molecules with more than two atoms

Other factors affecting degree of orbital interaction

Bonds between different atoms

Forming bonds using 2s and 2p atomic orbitals: σ and π orbitals

Bond order

Why hydrogen is diatomic but helium is not

Breaking bonds