Princeton UniversityP
Underground Water Could be the Solution to Green Heating and Cooling
Seasonal energy storage improves climate change flexibility.
Research team measured a value for the ‘clumpiness’ of the universe’s dark matter
Using the dark matter distribution to test our cosmological model.
Loofah-inspired hydrogel uses sunlight to purify contaminated water
It could potentially purify enough water to satisfy someone's daily needs, even when it's cloudy.
Changing magnetic noise’s shapes in space and time are revealed via a new approach
It’s a fundamentally new technique.
Chemists created quantum dots at room temp using lab-designed protein
Scientists are making novel proteins that never arose in life, doing things that don’t exist in life.
New catalysts could be key for the hydrogen economy
Inexpensive catalyst uses energy from light to turn ammonia into hydrogen fuel.
Exotic quantum state discovered at room temperature
The finding opens up a new range of possibilities for the development of efficient quantum technologies.
A new way to understand bacteria
This knowledge could be critical for advancing medical and environmental research.
How does water turn into ice? Scientists simulated the initial steps of ice formation
The resulting simulation describes how water molecules transition into solid ice with quantum accuracy.
Scientists revealed the distribution of dark matter around galaxies 12 billion years ago
Further back in time than ever before.
A method to study mini-magnetospheres
A unique environment to study kinetic-scale, collisionless plasma physics in the laboratory.
Silicon qubits for quantum computing
In a race to build quantum computing hardware, silicon begins to shine.