Cancer immunotherapy, which uses drugs that stimulate the body's immune cells to attack tumors, is a promising approach to treating many types of cancer. However, it doesn't work well for some tumors, including ovarian cancer.
Oct 31, 2025
An artificial intelligence model predicts how brain immune cells react to RNA and DNA nanoparticles, helping scientists design safer and more effective nucleic acid therapies faster.
Oct 31, 2025
Chemically modifying a ubiquitous polymer makes it promising for use as a self-healing, flexible conductor.
Oct 31, 2025
A new roadmap links materials, design, and process to build stretchable synaptic transistors for soft, low-power AI and wearable electronic systems.
Oct 31, 2025
Targeted particles carrying the cytokine IL-12 can jump-start T cells, allowing them to clear tumors while avoiding side effects.
Oct 31, 2025
Researchers uncovered a crucial mechanism that reveals how electrons and atoms interact to create a new quasiparticle and change conductivity in rare earth material.
Oct 31, 2025
A research group from the Graduate School of Engineering at Tohoku University has developed a noninvasive means of detecting the signals from "digital pills," a type of medication often used by doctors to monitor a patient's adheren...
Oct 30, 2025
Researchers from Skoltech, ITMO University, and their colleagues have reported new findings about the behavior of microbubbles exposed to ultrasound. The data obtained by the team will enable the creation of more stable and safe microbubbles that ...
Oct 30, 2025
Halide perovskites—already a focus of major research into efficient, low-cost solar cells—have been shown to handle light faster than most semiconductors on the market.
Oct 29, 2025
In a promising advance for cancer treatment, Northwestern University scientists have re-engineered the molecular structure of a common chemotherapy drug, making it dramatically more soluble and effective and less toxic.
Oct 29, 2025
