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InnovationScienceTechnology

Breakthrough Microscope Enables Simultaneous Brain Activity and Blood Flow Imaging in Awake Mice

Scientists have created a revolutionary microscope that simultaneously captures calcium signaling and blood flow dynamics across the entire mouse cortex. The technology enables unprecedented observation of brain activity in awake, behaving animals with single-vessel resolution.

Revolutionary Brain Imaging Technology

Researchers have reportedly developed a groundbreaking multimodal microscope that enables simultaneous observation of neural activity and blood flow dynamics across the entire cortex of awake mice, according to a recent publication in Nature Communications. The technology, termed multiScope, represents a significant advancement in studying the relationship between brain activity and blood flow, known as neurovascular coupling.

by Leo Renshaw
ResearchScience

Breakthrough Computational Method Accelerates Discovery of Next-Generation OLED Materials

Scientists have created a revolutionary screening method that dramatically accelerates the discovery of materials with inverted singlet-triplet energy gaps. The approach combines two molecular descriptors to identify promising candidates for next-generation organic light-emitting diodes. This breakthrough could pave the way for more efficient near-infrared displays and lighting technologies.

Revolutionary Screening Method Transforms OLED Material Discovery

Researchers have developed a computational breakthrough that reportedly accelerates the discovery of novel fluorescence emitters by more than 13 times while maintaining a 90% success rate, according to recent findings published in npj Computational Materials. The new method specifically targets materials with inverted singlet-triplet (IST) energy gaps, which analysts suggest could revolutionize near-infrared organic light-emitting diodes (OLEDs).

by Darren Holt