iSCAT is an interferometry method that detects elastic Rayleigh scattering in addition to reflected or transmission signals ...
A new dual-light microscope lets researchers observe micro- and nanoscale activity inside living cells without using dyes.
The following highlights spotlight the latest advances in gastroenterology, featuring studies and insights presented at this ...
A new microscope from the University of Tokyo captures both micro and nano structures without dyes. It reveals a clearer and more complete view into living cells.
AZoOptics on MSN
Laser Technology Advancements in Micro-LEDs
The article reviews laser processing methods that enhance micro-LED displays, addressing optical challenges and improving ...
Discover how multimodal microscopy combines Raman, photoluminescence, and SHG to deliver insights into the structure and ...
AZoM on MSN
Advancing Material Science Through Electron Microscopy: Insights from Professor Sarah Haigh
Discover how Professor Sarah Haigh uses electron microscopy to advance material science, from 2D materials to catalysts, with ...
UNC researchers discovered how a key step in cell signaling works by showing exactly how G proteins detach from receptors ...
Tech Xplore on MSN
Enhanced phase-shifting technique captures 3D shapes of moving objects with high precision
Researchers at the Institute of Science Tokyo have developed a neural-network-based 3D imaging technique that can precisely ...
In natural environments, bacteria rarely live as free-swimming cells but are attached to surfaces as biofilms in medical ...
Researchers at KRISS observed water’s rapid freeze–melt cycles under ultrahigh pressure and discovered Ice XXI, the first new ...
Plasmids are self-replicating genetic elements that float separately from a bacterium’s own chromosomes. Plasmids evolve ...
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