Researchers demonstrate reversible electrical control of chirality in hybrid materials, imposing chirality on molybdenum disulfide to enable tunable states for spintronics and chiral iontronics.

Ultrafast measurements reveal how light energy moves across two dimensional and organic semiconductor interfaces, enabling ...

First successful use of vapor deposition on industrial silicon wafers delivers unprecedented durability in perovskite-silicon tandem solar cells.

A fruit coating made from kitchen ingredients harvests electricity from humid air to power sensors while suppressing bacteria ...

New research identifies a simple strategy for combatting a major stumbling block in the development of next-generation ...

The new materials conduct ions equally well as liquids, liquid crystals, and solids, with no steep decrease in ion movement ...

An illustration of a self-assembling protein nanoparticle (SApNP) displaying Ebola virus surface proteins. This vaccine ...

A 40-year-old forgotten paper helped develop a faster, more efficient method of building futuristic 2D materials at a ...

Ball milling liquid metal with natural plant compounds produces a black powder that purifies seawater and generates ...

Sea-urchin-like copper single-atom nanozyme shows needle length boosts cellular uptake and improves chemodynamic tumor ...

Researchers have found a new way to produce perovskite photovoltaic modules in an environmentally friendly manner and on ...

Researchers observed and verified flat-band ultrastrong coupling of optical phonons and surface plasmon polaritons, enabling ...