Cell membranes are fundamental for cellular function as they protect the cell and control
passage in and out of the cell. Despite their clear significance, cell membranes are often …

Supported lipid bilayers (SLBs) are cell–membrane-mimicking platforms of varying
biological complexity, that can be formed on solid surfaces and used to characterise the …

Biosystems integration into an organic field-effect transistor (OFET) structure is achieved by
spin coating phospholipid or protein layers between the gate dielectric and the organic …

The detailed action mechanism of volatile general anesthetics is still unknown despite their
effect has been clinically exploited for more than a century. Long ago it was also assessed …

The transport of drugs or drug delivery systems across the cell membrane is a complex
biological process, often difficult to understand because of its dynamic nature. In this regard …

Biomembrane models built at the interface between two immiscible electrolytes (ITIES) are
useful systems to study phenomena of biological relevance by means of their …

A better elucidation of molecular mechanisms underlying drug-membrane interaction is of
great importance for drug research and development. To date, different biochemical and …

The lipid bilayer is the elemental structure of a cell membrane, forming a stable barrier
between the interior and exterior of the cell while hosting membrane proteins that enable …

The drug partitioning between membrane and solution has traditionally been approached
with bulk thermodynamic models, such as the octanol− water partitioning system. This …

Developing new drugs is a complex, time‐consuming, and expensive process, essential to
identify potential pharmacokinetic issues in the early stages to avoid investment in …