A novel material is being developed to enable quicker and better resolution displays. Scientists from Hokkaido University describe what makes this material so unique, paving the way for its application and further development.
A new paper in Advanced Materials explores piezoresponse force microscopy (PFM) and how it achieves electromechanical measurements, discussing complementary methodologies for calibrating the phase signal in this technique.
Ramping up renewable energy products will require a range of critical metals. One of these elements, tellurium, is gaining in popularity for use in photovoltaics, or solar panels. As global demand for solar panels continues to increase, so is the need for critical metals like tellurium.
A series of buzzing, bee-like "loop-currents" could explain a recently discovered, never-before-seen phenomenon in a type of quantum material. The findings from researchers at the University of Colorado Boulder may one day help engineers to develop new kinds of devices, such as quantum sensors or the quantum equivalent of computer memory storage devices.
Industrial parts damage is costly, leads to delays, and might not be safe for plant workers.
Researchers used strong X-Ray beam technology to investigate what causes soft materials like toothpaste and hair gel to relax. Their findings can help in the development of new consumer items and nanotechnologies.
A team of researchers recently published a paper in the journal Advanced Science that demonstrated the feasibility of using screen-printing multi-walled carbon nanotube (MWCNT)-based conductive ink dispersed by chitin nanocrystals (ChNCs) to fabricate wearable electronic products.
In an article recently published in the open-access journal Scientific Reports, researchers discussed the utility of electrostatically sprayed carbon electrodes for high-performance organic complementary circuits.
Topological states are an integral part of materials research because they are exceedingly stable. It is now possible to toggle such states on and off for the first time.
A team of scientists from China have published a new paper in Nature Communications investigating the development of high-performance n-type sulfide PbSnS2 which has the potential to match the outstanding performance of p-type SNS.
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