Tumor-specific drug release through controlled endosomal escape.

Scientists developed a new nanoparticle treatment that significantly improves outcomes for severe burn-induced intestinal barrier disruption.

Engineering the biomolecular corona could unlock the clinical potential of lipid nanoparticles for targeted, personalized nanomedicines beyond mRNA vaccines.

This breakthrough addresses crucial technological challenges related to the lattice mismatch problem in the growth of high-quality heterostructure semiconductors, leading to enhanced carrier transport and photoelectric properties.

Physicists choreograph the shift of a quantized electronic energy level with atomic oscillations faster than a trillionth of a second.

Researchers report on a new technique for deciphering the properties of matter with light, that can simultaneously detect and precisely quantify many substances with a high chemical selectivity.

Researchers have created a new material that uses 'redox gating' to control the movement of electrons in and out of a semiconducting material.

Dual-purpose nanoparticles help image and zap entrenched bacteria in animal study.

Researchers develop a groundbreaking silk peptide nanoparticle system for co-delivering erlotinib and curcumin, marking a significant advancement in targeted cancer therapy with the potential to overcome current treatment limitations.

Altermagnetic CrSb with promising characteristics for electronic applications.

Scientists have developed a novel machine learning interactive potential that is less costly than traditional quantum chemical simulations. The ANI-1xnr dataset they developed is now publicly available for research use.

Inspired by beetle cuticles, scientists have developed optical structures that can produce vibrant, iridescent and completely biodegradable colous using chitin - the world's second most abundant organic material.

Scientists developed a better method to produce immunoliposomes that can attach to tumor cells for longer periods of time/

ALD fabricated ultrablack coating for space telescopes and extreme environments, absorbing 99.3% of light with durability.

Novel wet spinning method produces densely packed, highly conductive carbon nanotube yarns in minutes, opening doors for large-scale production and applications.

Researchers are working on innovative spin-based memory and logic components that operate at low temperatures.

Equipped with novel homing abilities, the platform activates in cancer environments to release gene-editing tools.

Researchers have developed a metalens fabrication process that enables control over the optical properties of UV rays.

This photocatalyst has demonstrated remarkable efficiency in solar hydrogen production, achieving an excellent quantum yield under illumination by both visible and NIR light.

The approach takes a metallic nanotube, which always lets current through, and transforms it into a semiconducting form that can be switched on and off.