A sensor that requires no nanoscale patterning detects single molecules of a breast cancer protein at concentrations 250 ...

BRANFORD, Conn.--(BUSINESS WIRE)--Quantum-Si Incorporated (Nasdaq: QSI) (“Quantum-Si,” “QSI” or the “Company”), a proteomics technology company redefining ...

Plasmonic structure enables real-time thermal control of nanogaps for molecule-sized detection, offering sensitivity beyond conventional sensor limits. (Nanowerk News) A research team, affiliated with ...

Rice University scientists have discovered a way to make tiny vibrations, called phonons, interfere with each other more strongly than ever before. Using a special sandwich of silver, graphene, and ...

Researchers at ICFO, Barcelona, Spain, have developed a nanoantenna platform capable of enhancing fluorescence emission across the entire visible spectrum. This, say the team, “enables multicolor ...

This fundamental limitation severely constrains the detection sensitivity. Developing single-molecule Raman spectroscopy (SM-RS) to achieve Raman signal intensity comparable to fluorescence signals ...

UC Riverside scientists have developed a nanopore-based tool that could help diagnose illnesses much faster and with greater precision than current tests allow, by capturing signals from individual ...

A research team affiliated with the Nano Optics Group within the Department of Physics at UNIST has announced the successful implementation of a plasmonic structure capable of precisely adjusting ...

Researchers at ESPCI Paris and Quantum-Si demonstrate scalable platform for parallel binding kinetics and sequencing in new preprint Quantum-Si Incorporated (Nasdaq: QSI) (“Quantum-Si,” “QSI” or the ...