Developing the next generation of ultrafast laser chemical sensors and micro/nanomachining tools
We leverage state-of-the-art laser facilities at the Lawrence Berkeley National Laboratory to develop (i) new cutting edge technologies to unveil the chemical makeup of materials and (ii) high-throughput manufacturing and material functionalization technologies. Applications include energy storage (batteries), energy conversion (solar), biology, environment and nuclear security.
Developing the next generation of ultrafast laser chemical sensors and micro/nanomachining tools
We leverage state-of-the-art laser facilities at the Lawrence Berkeley National Laboratory to develop (i) new cutting edge technologies to unveil the chemical makeup of materials and (ii) high-throughput manufacturing and material functionalization technologies. Applications include energy storage (batteries), energy conversion (solar), biology, environment and nuclear security.
Developing the next generation of ultrafast laser chemical sensors and micro/nanomachining tools
We leverage state-of-the-art laser facilities at the Lawrence Berkeley National Laboratory to develop (i) new cutting edge technologies to unveil the chemical makeup of materials and (ii) high-throughput manufacturing and material functionalization technologies. Applications include energy storage (batteries), energy conversion (solar), biology, environment and nuclear security.
