The approach offers a potential alternative to chemotherapy and radiation by using light and heat to target cancer cells.

Researchers have co-developed a new way to precisely control the internal structure of common plastics during 3D printing, allowing a single printed object to seamlessly shift from rigid to flexible ...

Researchers propose a method to detect and map low-frequency excitations in nonlinear materials at nanometer resolution, enabling far-infrared fingerprints.

Researchers have succeeded in unequivocally demonstrating supersolidity in ultracold potassium atoms coupled to light.

Researchers developed a CMOS platform that reads 32 graphene sensors in real time, enabling detailed mapping of fast, ...

A responsive silica nanocomposite generates biocidal oxygen species only when microbes alter local chemistry, allowing ...

New device switches terahertz pulses between electric and magnetic skyrmions On-demand control of stable toroidal vortices lays groundwork for robust wireless data e ...

Rolling MXene sheets into scrolls at gram scale yields 33-fold conductivity gains and superconductivity at 5.2 K absent in ...

Stretchable MXene hydrogel sensor tracks heart rate and respiration during intense exercise, staying stable under heat, ...

A flexible photodetector using asymmetric 2D heterostructures switches spectral response by gate voltage, enabling ...

Researchers developed a simple quantum refrigerator that uses environmental noise to control heat and energy flows, aiding ...

A new computational framework maps 3D atomic positions in amorphous materials, achieving full accuracy for silica using ...