Ventrally based tongue flap for Palatal Fistula

“…[ 78 ] Particularly, the integration of plasmonic nanostructures and mechanical resonators is crucial for the development of novel nanoscale sensing devices with optical, electronic, and mechanical functional elements integrated on the same chip. [ 79,80 ] Such hybrid nano‐mechanical and optoplasmonic devices have been emerging as important platforms for ultrasensitive detection of cancer biomarkers and HIV in human serum at extremely low concentrations. [ 81,82 ] Similarly, plasmomechanical resonators are crucial for room‐temperature detection of power fluctuations of nanowatt order of magnitude [ 17 ] and zero‐power consumption [ 83 ] in infrared radiation.…”

“…developed a hybrid sensing platform that combines surface plasmon resonance and nano‐mechanical sensing techniques. [ 80 ] Such a novel system allows simultaneous and real‐time detection of two independent parameters, that is, refractive index change (∆ n ) and surface stress change (∆σ) when a biomolecular interaction takes place. Similarly, Kosaka and co‐workers developed a sandwich assay that combines mechanical and plasmonic transduction for detection of cancer biomarkers in serum at ultralow concentrations.…”

Plasmomechanical Systems: Principles and Applications

“…[ 78 ] Particularly, the integration of plasmonic nanostructures and mechanical resonators is crucial for the development of novel nanoscale sensing devices with optical, electronic, and mechanical functional elements integrated on the same chip. [ 79,80 ] Such hybrid nano‐mechanical and optoplasmonic devices have been emerging as important platforms for ultrasensitive detection of cancer biomarkers and HIV in human serum at extremely low concentrations. [ 81,82 ] Similarly, plasmomechanical resonators are crucial for room‐temperature detection of power fluctuations of nanowatt order of magnitude [ 17 ] and zero‐power consumption [ 83 ] in infrared radiation.…”

“…developed a hybrid sensing platform that combines surface plasmon resonance and nano‐mechanical sensing techniques. [ 80 ] Such a novel system allows simultaneous and real‐time detection of two independent parameters, that is, refractive index change (∆ n ) and surface stress change (∆σ) when a biomolecular interaction takes place. Similarly, Kosaka and co‐workers developed a sandwich assay that combines mechanical and plasmonic transduction for detection of cancer biomarkers in serum at ultralow concentrations.…”

Plasmomechanical Systems: Principles and Applications