A new dual-light microscope lets researchers observe micro- and nanoscale activity inside living cells without using dyes.

University of Tokyo researchers have created a powerful new microscope that captures both forward- and back-scattered light ...

Researchers at the University of Tokyo have built a microscope that can detect a signal over an intensity range 14 times ...

“The diameter of the most minute OLED pixels we have developed to date is in the range of 100 nanometers, which means they are around 50 times smaller than the current state of the art,” Jiwoo Oh, a ...

Microscopy has advanced significantly over the centuries, but modern tools still face trade-offs. Quantitative phase ...

Researchers from ETH Zurich have manufactured organic light-emitting diodes (OLEDs) on a nanoscale - that's around a hundred ...

Miniaturization ranks as the driving force behind the semiconductor industry. The tremendous gains in computer performance since the 1950s are largely due to the fact that ever smaller structures can ...

Researchers Kohki Horie, Keiichiro Toda, Takuma Nakamura, and Takuro Ideguchi at the University of Tokyo have created a microscope capable of ...

iSCAT is an interferometry method that detects elastic Rayleigh scattering in addition to reflected or transmission signals ...

Which cell is the coolest? Experts weigh in on their favorite cell types and what makes each one special in science and ...

A soft microrobot uses light driven motion, temperature sensing, and localized heating to control single cells inside 3D ...

Even newer “minimally invasive” ideas, like stent-mounted electrodes deployed through blood vessels, still require a catheter ...