Researchers developed a cost-effective catalyst to convert CO2 into useful carbon monoxide, potentially reducing atmospheric CO2 and enhancing syngas production.
Researchers have developed a new vaccine technology that has been shown in mice to provide protection against a broad range of coronaviruses with potential for future disease outbreaks - including ones we don't even know about.
A new technique called optofluidic crystallithography uses a laser to rapidly grow patterned single-crystal halide perovskites with unprecedented control over morphology, composition, and defect levels.
The pioneering biological research and development measures changes in immune system cells adjacent to cancer cells, providing crucial insights into the patient's immune response and potentially enhancing the effectiveness of immunotherapy.
Researchers have achieved the first controllable interaction between two hole spin qubits in a conventional silicon transistor. The breakthrough opens up the possibility of integrating millions of these qubits on a single chip using mature manufacturing processes.
Researchers discover metal atoms oscillate between solid and liquid states at temperatures far below melting point, with potential applications for metal alloys.
This research highlights the use of PtCo bimetallic catalysts on MXene to boost hydrogen energy production, achieving superior efficiency with lower costs.
