New DNA test reveals plants’ hidden climate role
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Updates every hour. Last Updated: 31-Aug-2025 13:11 ET (31-Aug-2025 17:11 GMT/UTC)
A research team has developed a deep learning–driven computed tomography (CT) imaging pipeline that enables precise, nondestructive segmentation of maize kernel endosperm.
The Hertz Foundation, a nonprofit dedicated to advancing American scientific and technological leadership, today announced that the application for the 2026 Hertz Fellowship is now open. The Hertz Fellowship is one of the most competitive and coveted awards for doctoral students in applied sciences, engineering and mathematics. Hertz Fellows receive up to five years of funding, giving them freedom from the traditional constraints of graduate training and the independence needed to pursue groundbreaking research. They also gain lifelong professional support, including mentoring, events and networking opportunities.
Ever wondered how nature’s waterproof leaves and self-cleaning surfaces could inspire new materials? A recent study in Engineering explores how starch, a common kitchen ingredient, can be used to create advanced superwettable systems for packaging, water treatment, and even food taste enhancement. Discover how this eco-friendly solution is shaping the future of material science!
Looking to improve zinc production? Scientists have developed a new model that can quickly and accurately predict temperatures in industrial roasters using minimal data. This innovation could enhance efficiency and product quality in zinc smelting. Find out how it works and its potential impact in our latest report!
Unlocking deep oil reservoirs just got easier! Scientists have developed a groundbreaking nanographite system that boosts oil recovery in extreme conditions. Read on to discover how this innovative solution overcomes high-temperature and high-salinity challenges, offering a game-changing approach for enhanced oil extraction.
Origami-inspired deployable structures are promising owing to their compact storage and efficient deployment. Recently, a team of researchers from Pusan National University have made an innovative breakthrough in this field. They present a multi-resin dispensing process for creating monolithic fiber-reinforced polymer structures with selective rigidity and flexibility, enabling origami-inspired deployable robotics applications with precise mechanical property control and mass production potential.