Relevance of analytical separation science

The categories are not independent. For example, do surface waters belong with Nature or with Environment? However, the classification is helpful to recognize the importance of analytical separation science.

Societal processes are not restricted to one box. Waste-water treatment plant produce clean surface water or drinking water that is free of pollutants (and drugs). Natural grains (organic produce) are an excellent soured of food, but to ensure good harvests pesticides may be used for crop protection, but residues of these should be minimal in food. Food and pesticides can be seen as conflicting products.

Many other products are developed and controlled by analytical separation science. Pharmaceuticals are one of the most-important types of products. The purity of active pharmaceutical ingredients (APIs), including enantiomeric purity, is a critical issue in western medicine. With the advent of modern biopharmaceuticals, such as oligonucleotides, separation scientists are facing new challenges. Determining effective dosages with minimal side effects is a process that must be studied before new medications can be released. Studying the efficacy and monitoring the composition of traditional (natural) medicines pose even greater challenges to analytical separation science.

Other samples from nature, such as plants, cells, organisms tend to be equally complicated. The detailed study of biosystems through “omics” (proteomics, metabolomics, etc.) have spurred the development for reliable high-resolution separation methods, usually hyphenated with mass spectrometry.