The capacitors were embedded in a silicon substrate via a multi-step spin-coating process, giving them a spiral shape and coplanar structure.

The coherence time was short -- a little over 1 microsecond, compared to about 10 microseconds for a conventionally built coplanar capacitor, but this is only a first step in exploring the use of ...

The coherence time was short—a little over 1 microsecond, compared to about 10 microseconds for a conventionally built coplanar capacitor, but this is only a first step in exploring the use of ...

The capacitors were embedded in a silicon substrate via a multi-step spin-coating process, giving them a spiral shape and coplanar structure. This gave them high capacitive density and high ...

The coherence time was short—a little over 1 microsecond, compared to about 10 microseconds for a conventionally built coplanar capacitor, but this is only a first step in exploring the use of 2D ...

Specifically, they demonstrated coplanar interdigitated electrodes based on single-layer graphene as transparent touch sensors. Graphene based flexible capacitive sensors with various interdigitated ...

The capacitors were embedded in a silicon substrate via a multi-step spin-coating process, giving them a spiral shape and coplanar structure.

Described in Applied Physics Letters, the technology is said to be based on a coplanar capacitor and detects goose bumps by virtue of a linear relationship between the deformation of the sensor and ...

The capacitors were embedded in a silicon substrate via a multi-step spin-coating process, giving them a spiral shape and coplanar structure.