Biophysicists developed a technique that speeds up screening of individual DNA molecules at least a thousand times. With this technology, they can measure millions of DNA molecules within a week instead of years to decades.

The novel nanocatalyst demonstrated an impressive performance in activating peroxymonosulfate (PMS) for the degradation of bisphenol A, achieving a rate constant nearly 20 times higher than that of conventional catalysts.

Achieved a discharge capacity five times higher than that of graphite anode material, even in environments as low as minus 20 degrees Celsius.

Dynamic nuclear polarization and nanometer-scale magnetic resonance imaging creates unprecedented opportunities to study biological structures.

The world's largest and most powerful particle accelerator may be producing the world's tiniest droplets of liquid.

Phsyicists have theoretically and experimentally shown that superconducting qubit coherence loss can be directly measured as thermal dissipation in the electrical circuit holding the qubit.

Scientists have demonstrated the creation of perovskite crystals with predefined shapes that can serve in nonlinear photonics as waveguides, couplers, splitters, and modulators.

Device expands ways to manipulate low-dimensional quantum materials.

Polymeric nanocarriers autonomously cross plant cell walls, delivering proteins for stress sensing and engineering, offering new possibilities in agriculture.

Researchers developed a monolithic evaporator by confining copper and iron-based materials in graphitic carbon nanofibers, achieving efficient solar-driven water regeneration and pollutant degradation.

Scientists explore the effects of repeated exposure to cerium oxide nanoparticles on the freshwater algae Chlorella vulgaris.

Researchers have demonstrated a technology capable of a suite of data storage and computing functions - repeatedly storing, retrieving, computing, erasing or rewriting data - that uses DNA rather than conventional electronics.

Novel carbon nanohorn-based treatment leverages photothermal therapy, immunotherapy, and chemotherapy offering a comprehensive cancer treatment.

Researchers developed a double-layer dry transfer printing technology that simultaneously transfers light-emitting and electron-transferring layers onto a substrate, enhancing AR/VR immersion.

Thanks to nanotechnology, your early morning run could soon help harvest enough electricity to power your wearable devices.

Multivalent-ion batteries show promise but face slow ion diffusion. A review highlights MXene-based materials as a solution, enhancing magnesium, aluminum, and zinc battery performance.