This article features Heman Bekele, a high school student who was named “Kid of the Year 2024” by TIME magazine. Bekele is working on a soap that that could one day treat, and even prevent, multiple forms of skin cancer. His idea is to combine the soap with a lipid-based nanoparticle that would linger on the skin when the soap is washed away. The article is accompanied by a short video interview with Bekele.

(Funded by the U.S. Department of Defense)
Researchers from the University of Maryland, the University of Maryland, the University of California, Los Angeles, and the National Institute of Standards and Technology have envisioned a modular system for scaling quantum processors with a flexible way of linking qubits over long distances. While there are many types of qubits, the researchers chose to study quantum dot-based spin qubits that interact through microwave photons in a superconducting cavity. (Quantum dots are semiconductor nanoparticles that have unique size- and shape-dependent optoelectronic properties.) The researchers provided comprehensive guidelines for tailored long-distance entangling links by making multiple frequencies available for each qubit to become linked with microwave cavity photons of a given frequency.

(Funded by the National Science Foundation)
University of California, Irvine scientists have discovered a one-dimensional nanoscale material whose color changes as temperature changes. “We found that we can make really small and sensitive thermometers,” said Maxx Arguilla, one of the scientists involved in this study. Arguilla likened the thermometers to “nano-scale mood rings,” referring to the jewelry that changes color depending on the wearer’s body temperature. But instead of simply taking a qualitative temperature reading, the changes in the color of these materials “can be calibrated and used to optically take temperature readings at the nanoscale,” Arguilla said.

(Funded by the National Institutes of Health)
Scientists from the University of Michigan and the University of Virginia have shown that nanoparticles delivered intravenously in mice can block allergic reactions to red meat caused by the bite of the lone star tick. The nanoparticles contain allergens that re-train the immune system to ignore the type of sugar found in beef, pork, and lamb. Once the nanoparticles were delivered to the mice, the scientists exposed these mice to ticks to trigger an immune response. In 10 out of 12 mice, a reduced immune response was recorded.

(Funded by the U.S. Department of Defense, the U.S. Department of Energy, and the National Science Foundation)
Physicists from Purdue University, Washington University in St. Louis, and the U.S. Department of Energy’s Sandia National Laboratories have levitated a fluorescent nanodiamond and spun it at incredibly high speeds (up to 1.2 billion times per minute). The fluorescent diamond emitted and scattered multicolor lights in different directions as it rotated. When illuminated by a green laser, the nanodiamond emitted red light, which was used to read out its electron spin states. An additional infrared laser was shone at the levitated nanodiamond to monitor its rotation. Like a disco ball, as the nanodiamond rotated, the direction of the scattered infrared light changed, carrying the rotation information of the nanodiamond.