A collaboration led by researchers at Osaka University has developed a nanogate that can be open or shut by applying electricity. The nanogate shows various behaviors depending on the materials in the ...

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 ...

Conventional preparation techniques use chemical attacks to remove remnant material from the membrane pores after the initial bombardment — an approach that can alter the entire PET polymer.

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 ...