A research team at Kumamoto University has developed a deep learning-based method for analyzing the cytoskeleton—the structural framework inside cells—more accurately and efficiently than ever before.

New findings on tunneling nanotube-like structures offer critical insights into heart formation, paving the way for innovative heart disease therapies.

A research team at Kumamoto University has developed a groundbreaking deep learning-based method for analyzing the ...

A major breakthrough in organic semiconductors has been achieved, potentially transforming display technology and even future ...

Temperature is a critical variable that influences countless biological processes at the cellular level. However, precisely ...

A test of customized organic semiconductors capable of twisting light dramatically improved the efficiency of OLED displays.

Researchers develop a chiral organic semiconductor that enhances OLED efficiency and enables advancements in spintronics and ...

Researchers have advanced a decades-old challenge in the field of organic semiconductors, opening new possibilities for the future of electronics. The researchers, led by the University of Cambridge ...

Scientists have developed organic semiconductors that produce circularly polarized light and potentially improve current ...

A new study provides detailed insights into the embryogenesis and eye development of the cave-dwelling spider Tegenaria ...

ZEISS announces the launch of Lightfield 4D, a new microscopy technology based on the light-field principle. As a new imaging ...

Neurobiologists identify key protein Esyt linking calcium signaling to neurodegenerative diseases in cell membrane contact sites.