microcantilever

Consisting of carbon, hydrogen, silicon and oxygen molded into the shape of a nano-sized tip and integrated on the end of a silicon microcantilever for use in atomic force microscopy, the material has technological implications for atomic imaging, probe-based data storage and as emerging applications such as nanolithography, nanometrology and nanomanufacturing.

Science Blog BJS 2010

Consisting of carbon, hydrogen, silicon and oxygen molded into the shape of a nano-sized tip and integrated on the end of a silicon microcantilever for use in atomic force microscopy, the material has technological implications for atomic imaging, probe-based data storage and as emerging applications such as nanolithography, nanometrology and nanomanufacturing.

PhysOrg.com - latest science and technology news stories 2010

"With this new approach, when the microcantilever stops oscillating we know with high certainty that the target chemical or compound is present," Lavrik said.

PhysOrg.com - latest science and technology news stories 2010

This is an SEM image of a silicon microcantilever with an ultrasharp tip of diamond-like carbon with silicon.

PhysOrg.com - latest science and technology news stories 2010

When the target chemical reacts with the microcantilever, it shifts the frequency depending on the weight of the compound, thereby providing the detection.

PhysOrg.com - latest science and technology news stories 2010

When the target chemical reacts with the microcantilever, it shifts the frequency depending on the weight of the compound, thereby providing the detection.

PhysOrg.com - latest science and technology news stories 2010

"With this new approach, when the microcantilever stops oscillating we know with high certainty that the target chemical or compound is present," Lavrik said.

Medlogs - Recent stories 2010

Consisting of carbon, hydrogen, silicon and oxygen molded into the shape of a nano-sized tip and integrated on the end of a silicon microcantilever for use in atomic force microscopy, the material has technological implications for atomic imaging, probe-based data storage and as emerging applications such as nanolithography, nanometrology and nanomanufacturing.

RedOrbit News - Technology 2010

When the target chemical reacts with the microcantilever, it shifts the frequency depending on the weight of the compound, thereby providing the detection.

Medlogs - Recent stories 2010

"With this new approach, when the microcantilever stops oscillating we know with high certainty that the target chemical or compound is present," Lavrik said.

PhysOrg.com - latest science and technology news stories 2010