Researchers have found a way to boost superconductivity at higher temperatures and stronger magnetic fields by sculpting the substrate beneath the material.
Scientists developed a new membrane with one-nanometer pores, potentially cutting industrial energy use and improving water recycling and chemical purification.
New nanoparticles inspired by lung fluid can deliver drugs directly to diseased lung tissue, reducing doses and side effects for respiratory conditions.
Researchers found that longer molecules can pass faster through dynamic nanoscale pores than shorter ones, challenging conventional understanding of molecular transport.
Scientists have developed a new, scalable method to create moiré patterns in 2D materials using controlled strain from thin-film coatings, bypassing traditional twisting and stacking techniques.
A new nanofiber implant delivering three drugs has doubled the survival rate in mice with glioblastoma, offering a promising treatment for the aggressive brain cancer.
A new method for stacking silicon circuits in multiple layers could extend Moore's Law by increasing computing power and density through 3D chips.
Graphene quantum dots show promise in preventing the protein clumping linked to Parkinson's disease and other neurodegenerative conditions, according to new research.
A German-Israeli team developed an imaging ellipsometry method to non-destructively monitor MXene thin-film quality during microdevice fabrication, ensuring integrity and functionality.
A new roadmap from University of Ottawa and MIT researchers outlines three paths to developing room-temperature quantum materials for more energy-efficient computing.
Researchers discovered a stable size range for piezoelectric beta-glycine nanocrystals, enabling their potential use in bio-compatible electronics and sensors.