Making the ‘invisible’ visible: How high-speed movies could change the way scientists study disease
An advanced imaging method captures chemical processes in living organisms in real time, allowing researchers to observe biology as it happens.
Read the full articleYou might also wanna read
Making the 'invisible' visible: How high-speed movies could change the way scientists study disease
High-speed movies of microscopic worms may sound like a dull night at the cinema, but this advanced imaging capability could help scientists
Making the 'invisible' visible: How high-speed movies could change the way scientists study disease
High-speed movies of microscopic worms may sound like a dull night at the cinema, but this advanced imaging capability could help scientists
From Veritasium: What If You Keep Slowing Down?
Camera Culture research uses single-pixel imaging to capture light in motion at trillion-frame-per-second speeds, revealing the invisible.
Peering into materials down to the nanoscale in the COCOON lab
A new Tufts University imaging facility is doing something that most microscopy centers in the world cannot: allowing scientists to examine
Peering into materials down to the nanoscale in the COCOON lab
A new Tufts University imaging facility is doing something that most microscopy centers in the world cannot: allowing scientists to examine
The Faint Glow of Life: How Biophotonics Could Transform Our Understanding of Health and Disease
We’re just beginning to decode this faint optical “signature of life” and what it could reveal about health, disease, and the future of medi
Scientists Engineer Proteins to Act as Qubits for Cellular Disease Monitoring
Scientists can genetically engineer proteins to act like the qubits used in quantum computing to track any abnormalities in our cells.

Comments
Sign in to join the conversation.
No comments yet. Be the first.