ABSTRACT

The quadrupolar science of the virtual valve-driven survismeter has become an indispensable experimental resource for exploring solution and nanoemulsion interfaces of academic and industrial significance. The survismeter holding liquid helps determine drug binding and release, oil distribution, and solution interaction and build new databases. The survismeter liquid mixtures experimental science and technology (LIMEST) is the biggest scientific and technological interface to track molecular interfacial potential to cater to one of the largest needs of basic and applied research. The survismeter detects the number of functional groups like -OH in the molecules. Such interaction behavior of the -OH numbers is most fascinating as the survismeter is capable of determining the science of the increasing numbers of alcoholic -OH groups. Cations can be identified by measuring their surface tension and viscosity with the help of a survismeter. The effect of smaller cations on larger cations is not known and is also not reported, so their studies could be planned with the survismeter.