Scientists have developed a versatile platform with an electrically controlled nano-gate that can be used for applications in sensing, chemical synthesis, memristors, and neuromorphic computing. The ...

Supercomputer simulations have revealed how changes in the shape of the HIV-1 capsid protein may help the virus squeeze its ...

The nanogate consisted of a single tiny pore that was formed in a silicon nitride membrane. The membrane was positioned in a flow cell formed on a chip and solutions were introduced on both sides ...

A Vanderbilt-led research team has made a significant breakthrough in developing advanced dialysis membranes using atomically thin materials like graphene. These innovative membranes, called ...

This important study characterizes the mechanics and stability of bolalipids from archaeal membranes using molecular dynamics simulations. A mesoscale model of bolalipids is presented and evaluated ...

Breakthrough study in Nature Materials reveals DNA nanorafts reshape synthetic cells for controlled membrane dynamics and ...

Researchers from SANKEN (The Institute of Scientific and Industrial Research), at Osaka University develop a versatile ...

Researchers develop graphene-based dialysis membranes that enhance filtration efficiency while reducing protein loss for improved treatment.

Osaka University researchers developed an electrically controlled nanogate, enabling precise regulation of ion transport and ...