Lipid membranes are involved in many physiological processes like recognition, signaling,
fusion or remodeling of the cell membrane or some of its internal compartments. Within the …

Biosensing plays vital roles in multiple fields, including healthcare monitoring, drug
screening, disease diagnosis, and environmental pollution control. In recent years, transistor …

The use of bacteriophages, viruses that specifically infect bacteria, as antibiotics has
become an area of great interest in recent years as the effectiveness of conventional …

Biomimetic lipid bilayer platforms on solid supports, or solid-supported lipid bilayers (SLBs),
are important model membrane systems for studying the fundamental properties of …

One of the main challenges in neuroelectronics is the implementation of electronic platforms
able to secure a tight coupling with neuronal cells and achieve an optimal signal to noise …

Bioelectronic platforms can be used for electrophysiology, monitoring and stimulating
specific cellular functions. While planar electroactive materials have been extensively used …

Bioelectronics aims to design electronic devices which can be fully integrated within tissues
to monitor or stimulate specific cell functions. The main challenge is the engineering of the …

Neurohybrid systems have gained large attention for their potential as in vitro and in vivo
platform to interrogate and modulate the activity of cells and tissue within nervous system. In …

An artificial lipid bilayer is the closest possible model for the cell membrane. Despite that,
current methods of lipid bilayer assembly and functionalization do not provide a satisfactory …

Liposomes and supported lipid bilayers (SLBs) are having an increasing impact in
designing new biomedical approaches owing to their cell-like structures and native …