Nanopillar Optomechanical Cavities Pave the Way for Advanced Force Sensing and Biosensing Techniques

Researchers from the STRETCHBIO project have made a significant leap in force sensing and biosensing technologies with their latest study published in ACS Nano, titled “Strong Cavity-Optomechanical Transduction of Nanopillar Motion.” The study presents an innovative approach to transducing the motion of nanopillar resonators, which are key for ultra-sensitive force Read more…

18-month meeting

Researchers from all the institutions participating in the StretchBio project took part in the 18-month meeting of the project held last week at the Fraunhofer Institute in Freiburg. The meeting focused on the design and operation of the functional prototype of the sensor that will be completed over the next 3 Read more…

The first results of the project are presented at the MRS conference in Boston, Massachusetts

Elena Lopez, postdoctoral researcher in the StretchBio project, presented last week the first results of the project at the MRS (Materials Research Society) in Boston, Massachusetts. The presentation was part of the Symposium EQ05-Plasmonics, Nanophotonics and Metaphotonics — Design, Materials and Applications. The abstract presented by the team of the Read more…