This topic takes on average 55 minutes to read.
There are a number of interactive features in this resource:
Animations: most of the animations can be expanded to full screen size, ideal for showing on an interactive whiteboard. The animations will play all the way through or can be viewed one section at a time.
This topic has features which you can interactive with, these are usually animations will require you to click to progress to reveal more details.
The analytical chemistry laboratories play important roles in the drug discovery process. The equipment is used to check the structures of new chemicals that are made in synthetic labs. Most synthetic chemists can interpret their own spectra, but for complex problems the analytical chemists can solve them using a combination of techniques. They also investigate by-products formed when chemical reactions are done in a bigger scale. Another crucial role is to check the purity of products made on a large scale which are destined for trials in patients
The techniques used in this laboratory have complicated names which are usually abbreviated.
|NMR||nuclear magnetic resonance spectroscopy|
|mass spec||mass spectrometry|
|HPLC||high performance liquid chromatography|
|ICP||inductively coupled plasma spectrometry|
|UV||ultra violet spectroscopy|
|IR||infra red spectroscopy|
NMR is used to look at the nuclei of atoms and can "see" the relative positions of hydrogen and carbon atoms in molecules. Mass spec measures the molecular weight (formula mass) of molecules and is usually used in conjunction with HPLC which is used to separate mixtures and check purity. Other techniques that are regularly used are GC for analysing volatile compounds and ICP for measuring trace amounts of elements. UV and IR are rarely used as they are not very sensitive.