Page 38: Research news on Functional materials

Functional materials are physical systems engineered so that their intrinsic properties—such as electrical conductivity, magnetization, optical response, ionic mobility, or mechanical deformation—can be deliberately modulated by external stimuli (e.g., electric or magnetic fields, light, temperature, stress, or chemical environment) to perform specific tasks. They encompass classes such as ferroelectrics, piezoelectrics, magnetoresistive and thermoelectric materials, shape-memory alloys, solid electrolytes, and stimuli-responsive polymers. In research and device design, functional materials serve as active components enabling sensing, actuation, energy conversion, information storage, and signal processing, with performance governed by their structure–property relationships across atomic, mesoscale, and macroscopic length scales.

Using starch and baking soda to harvest mechanical energy

Scientists have used a compound made from a starch derivative and baking soda to help convert mechanical energy to electrical energy. The approach, developed by scientists at Daegu Gyeongbuk Institute of Technology (DGIST), ...

Researchers have turned transparent calcite into artificial gold

In a breakthrough in metamaterials, for the first time in the world, researchers at Tel Aviv University have developed an innovative nanotechnology that transforms a transparent calcite nanoparticle into a sparkling gold-like ...

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