en.m.wikipedia.org
Lipid bilayer characterization is the use of various optical, chemical and physical probing methods to study the properties of lipid bilayers. Many of these techniques are elaborate and require expensive equipment because the fundamental nature of the
lipid bilayer makes it a very difficult structure to study. An individual bilayer, since it is only a few nanometers thick, is invisible in traditional light microscopy. The bilayer is also a relatively fragile structure since it is held together entirely by
non-covalent bonds and is irreversibly destroyed if removed from water. In spite of these limitations dozens of techniques have been developed over the last seventy years to allow investigations of the structure and function of bilayers. The first general approach was to utilize non-destructive
in situ measurements such as
x-ray diffraction and electrical resistance which measured bilayer properties but did not actually image the bilayer. Later, protocols were developed to modify the bilayer and allow its direct visualization at first in the
electron microscope and, more recently, with
fluorescence microscopy. Over the past two decades, a new generation of characterization tools including
AFM has allowed the direct probing and imaging of membranes
in situ with little to no chemical or physical modification. More recently,
dual polarisation interferometry has been used to measure the optical
birefringence of lipid bilayers to characterise order and disruption associated with interactions or environmental effects.
