Abstract
Drop coating deposition Raman (DCDR) spectroscopy introduces a simple and easily accessible approach to studying biologically important molecules and their mixtures. The method is based on drying a small drop of solution or suspension of studied molecules deposited on a special hydrophobic surface.
The drying process efficiently accumulates the molecules in the 'coffee-ring' or any small pattern from which the Raman spectrum can be measured. In this way, a significant (several orders of magnitude) improvement of the Raman detection sensitivity compared with Raman measurement from solution can be reached.
Therefore, a small sample volume (several microliters), as well as a low initial concentration of studied molecules in deposited droplets, are important advantages of the DCDR method over the normal Raman one. Recently, many relevant DCDR applications on biomolecules and related molecules have been reported.
The mini-review covers a brief overview of the DCDR method (principle, short history, suitable hydrophobic surfaces and state-of-the-art). It will be followed by a summary of the studies over the last 15-20 years on different biologically important molecules, including proteins, lipids (in the form of liposomes) and small molecules (e.g., porphyrins, anthrax marker dipicolinic acid and food and environmental contaminants).
Finally, the application potential and further perspectives of the DCDR method for biomolecular studies will be discussed.