For more than a century, schoolbook physics has divided matter into neat categories like solid, liquid, gas, and plasma. A ...

Researchers improved organic solar cell fabrication by controlling molecular assembly, enhancing efficiency and stability, bringing the technology closer to commercial viability. OSCs are a compelling ...

A hexagonal columnar liquid crystal phase was formed by pairing a porphyrin Au III cation and a pentacyanocyclopentadienide (PCCp⁻) anion in water, stabilized by triethylene glycol (TEG) chains.

A team of researchers has developed a novel method for using cholesteric liquid crystals in optical microcavities. The platform created by the researchers enables the formation and dynamic tuning of ...

New research offers clearer insight into how phase transitions unfold at the atomic scale in real materials. When ice turns into water, the change happens almost instantly. Once the melting ...

Scaling up perovskites for potential widespread use in solar cells has been a challenge due to arising defects. Yi Yang, postdoctoral fellow; Ted Sargent, Lynn Hopton Davis and Greg Davis Professor of ...

In a new Nature Physics study, researchers created particle-like so-called “vortex knots” inside chiral nematic liquid crystals, a twisted fluid similar to those used in LCD screens. For the first ...

Soft robotic systems are evolving toward life-like motion, but precise shape-morphing and adaptive grasping remain difficult. This study presents a ...

Scientists unveil a solid electrolyte that moves lithium as fast as liquids, promising safer, fast-charging batteries.