Quantum physics is no longer confined to cryogenic chips and vacuum chambers. It is starting to seep into the machinery of ...

Diamond nanoparticles containing nitrogen-vacancy centers can now monitor cellular metabolism in real time, targeting specific organelles while tracking particle movement inside living cells.

Quantum dot solar cells harness the unique properties of semiconductor nanocrystals to capture a broader spectrum of solar radiation, offering substantial promise for next-generation photovoltaics. By ...

Quantum dot intermediate band solar cells (QD‐IBSCs) represent an innovative approach to photovoltaic energy conversion by incorporating nanoscale semiconductor particles into a traditional absorber ...

For decades, scientists have relied on electrodes and dyes to track the electrical activity of living cells. Now, engineers have discovered that quantum materials just a single atom thick can do the ...

QT Sense is developing Quantum Nuova, a quantum-based platform that measures cellular stress in living cells in real time, ...

The so-called magneto-sensitive fluorescent proteins or MFPs, overcome key limitations of previous biological candidates for quantum sensors.

Quantum computing has long promised to crack problems that defeat even the fastest supercomputers, but the hardware has ...

Quantum sensors made from a glowing protein can be produced by living cells and could be used to much more accurately measure tiny changes in the body. This could one day help with early disease ...