An international group of researchers collected one hundred years’ worth of sounds from around the world to investigate how soundscapes differ between urban and natural environments. They also examined how these soundscapes change throughout the day and throughout the year. The research revealed that soundscape rhythms are less predictable for people living in urban areas than for animals in the wild.

Hybrid Photonic polycrystals with a synthetic hybrid dimension enable versatile control of edge channels and corner modes in multiple frequency bands.

A controlled/“living” click polymerization method developed by researchers at Institute of Science Tokyo and Nagoya University enables precise chain-growth of AB-type monomers—traditionally limited to step-growth processes—by leveraging copper-catalyzed azide–alkyne cycloaddition. The approach achieves well-defined polymers with narrow dispersity and enables the bidirectional synthesis of ABA-type block copolymers, offering a powerful new strategy for constructing functional macromolecular architectures from a wide range of monomers.

A new palladium-loaded amorphous InGaZnO_x (a-IGZO) catalyst achieved over 91% selectivity when converting carbon dioxide to methanol, report researchers from Japan. Unlike traditional catalysts, this system leverages the electronic properties of semiconductors to generate all the species necessary for the conversion reaction. This study demonstrates novel design principles for sustainable catalysis based on electronic structure engineering.

Indium gallium zinc oxide (IGZO)-based displays suffer from instability caused by atomic-scale defects. Now, a new study provides the first insights into these instabilities in single-crystal IGZO. Researchers grew high-quality IGZO single crystals and uncovered how oxygen vacancies and structural disorder create unwanted electronic states—details that were unclear in previous studies using amorphous IGZO samples. These findings could guide the development of more stable and longer-lasting displays for smartphones, televisions, and other devices.

In a paper published in National Science Review, a team of researchers utilized an astronomical telescope equipped with a quantum-limited superconducting mixer as the receiver. The experiment successfully demonstrated real-time high-definition video wireless transmission at 500 GHz over a record distance of 1.2 km at a dry site situated 4445 meters above sea level. This experiment offers valuable insights for the future development of satellite and airborne-to-ground communication technologies and their applications.

Scientists have developed an innovative emergency power source by transforming warm paste into functional batteries. The hydrogel-based iron-air battery can operate in temperatures as low as -20 °C and provides ampere-hour level capacity, offering a promising solution for emergency power in harsh outdoor environments.