Conducting polymer microactuators operating in air

We report for the first time on microsized conducting polymer actuators, which operate in air and in liquids. These actuators are potentially useful for a wide range of applications from biotechnology to microrobots. Furthermore, the actuators are fabricated using an excimer laser ablation technique, which does not require clean-room facilities and can provide high throughput production. Preliminary characterization results presented show that the tip displacement of the microactuators is linearly proportional to the magnitude of the input voltage.

Conducting polymer microactuators operating in air

On the interaction of femtosecond laser pulses with layered dielectric materials

Femtosecond laser-induced modifications and self-organization in complex glass systems

In situ monitoring of femtosecond laser-induced modifications in dielectrics

Femtosecond laser-induced modifications and self-organization in complex glass systems

On the interaction of femtosecond laser pulses with layered dielectric materials

In situ monitoring of femtosecond laser-induced modifications in dielectrics