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Archive for the ‘materials’ category: Page 82

Sep 15, 2023

Chinese researchers create dancing microrobots using lasers

Posted by in categories: materials, nanotechnology

Inspired by the flexible joints of humans, the scientists from the University of Science and Technology of China (USTC), of the Chinese Academy of Science, led by Prof. Wu Dong, proposed a two-in-one multi-material laser writing strategy that creates the joints from temperature-sensitive hydrogels as well as metal nanoparticles.

Sep 15, 2023

Researchers develop high-performance zero thermal expansion composite for precision devices

Posted by in category: materials

Recently, a research group led by Prof. Peng Tong from Hefei Institutes of Physical Science (HFIPS), Chinese Academy of Sciences (CAS), significantly improved the negative thermal expansion (NTE) effect of Cu2P2O7, a new but excellent NTE material, and prepared a zero thermal expansion (ZTE) Cu2P2O7/2024Al composite with high specific thermal conductivity and good machinability.

The research results were published in Journal of Materials Science & Technology and Ceramics International.

With the advancement of high-tech fields, it is not possible to adjust the dimensions of precision equipment. However, thermal expansion with temperature is a of many regularly used materials that is difficult to control. Combining NTE materials with ordinary positive materials is an efficient way to produce ZTE materials.

Sep 15, 2023

Scientists Discover “Demon” Particle

Posted by in categories: materials, particle physics

Right in time for spooky season, scientists have discovered the existence of something called the “demon” particle. While the name of the material may strike terror in some, its discovery is actually far less sinister. Hidden from researchers for over seven decades, the “composite” of electrons was recently discovered according to a new study published in Nature.

“Demons have been theoretically conjectured for a long time, but experimentalists never studied them,” paper senior author Peter Abbamonte said in the study. “In fact, we weren’t even looking for it. But it turned out we were doing exactly the right thing, and we found it.”

Sep 14, 2023

Electricity Sources by Fuel in 2022

Posted by in categories: energy, materials

From VC Elements—bridging the gap between global trends shaping our future, and the raw materials powering them ⚡️.


Coal is Still King

Coal still leads the charge when it comes to electricity, representing 35.4% of global power generation in 2022, followed by natural gas at 22.7%, and hydroelectric at 14.9%.

Sep 13, 2023

Apple’s iPhone 15 feels like a refined flagship with smart camera improvements

Posted by in categories: materials, mobile phones

Apple’s iPhone 15 launched at the company’s fall event today, and I got to spend some time with the new smartphone. It didn’t get the flashy new titanium of the iPhone 15 Pro that Brian checked out, but it does have a new design that includes softer, more rounded edges and the introduction the Dynamic Island to a non-Pro phone for the first time.

The iPhone 15 is actually very impressive in the looks department. Apple went into details about all the material science magic it put into the new colored glass and anodized aluminum used in the cases during its presentation. The ultimate effect, and all most people need to care about, is that they look really good, like candy-colored confections in muted but fun tones.

Sep 10, 2023

Global Connectivity Predicts Reactivity

Posted by in categories: materials, particle physics

If you could quickly predict the reactivity of a material in different scenarios using only its atomic-level geometry, you’d hold the golden ticket to finding application-specific catalytic materials. Some methods exist for making these predictions, but they require detailed knowledge about the arrangement of the atoms and are computationally expensive to perform and thus slow to run. Now Evan Miu and his colleagues at the University of Pittsburgh have developed a method that requires only information about the connectivity of the atoms, is computationally cheap, and is quick to run [1]. Their method accurately predicts how metal oxides interact with hydrogen in a reaction important to energy storage and catalysis.

Miu and the team hypothesized that they could predict a material’s reactivity using a single number that describes the so-called global connectivity of the system’s atoms. A material with a high global connectivity contains atoms that are, on average, bonded to more of their neighbors than does a system with a low value of this parameter. The researchers have used a similar concept to study reactivity for metal catalysts, but not for more complex structures, such as metal oxides.

To test their idea, the researchers examined—in different metal oxides—so-called hydrogen intercalation, a type of redox reaction that alters the host material’s properties. They found that they could use each oxide’s global connectivity to determine the strength of its hydrogen reactivity. The model-determined values for the various hydrogen-binding energies agree with experimental data and took mere seconds to obtain. The tool could thus allow scientists to rapidly develop and optimize novel materials to use in energy-storage applications.

Sep 10, 2023

NTx Awarded Contract to Demonstrate Novel RNA Vaccine Production Platform

Posted by in categories: biotech/medical, materials

BARDA is part of the Administration for Strategic Preparedness and Response within the U.S. Department of Health and Human Services.

The NTxscribe platform is a cell-free, continuous flow manufacturing system that reportedly delivers scalable RNA (including mRNA and self-amplifying RNA) materials in a tabletop footprint. This enzymatic process is designed to provide a low cost and rapidly deployable, vertically integrated manufacturing system, according to Jamie Coffin, PhD, CEO of NTx. Through this program, the system is being evaluated for its express development of RNA vaccines and therapeutics for infectious diseases, as well as its capability for distributed biomanufacturing.

“The traditional batch processes for developing vaccines and other biologics are burdensome and cannot be scaled quickly in the event of an emergency,” said Coffin. “Over the course of this project, we will aim to prove that NTxscribe can help BARDA meet its goals toward decentralized and rapidly deployable vaccine manufacturing.”

Sep 9, 2023

Physicists Have Figured Out a Way to Write in Water

Posted by in categories: materials, particle physics

There are several perfectly good reasons why water isn’t a popular medium for calligraphers to write in. Constantly shifting and swirling, it doesn’t take long for ink to diffuse and flow out of formation.

An ingenious ‘pen’ developed by the researchers from Johannes Gutenberg University Mainz (JGU) and the Technical University of Darmstadt in Germany, and Huazhong University of Science and Technology in China, could give artists a whole new medium to work with.

The new device is a tiny, 50 micron-wide bead made of a special material that exchanges ions in the liquid, creating zones of relatively low pH. Traces of particles suspended in the water are then drawn to the acidic solution. Drawing out that zone can create persistent, ‘written’ lines.

Sep 8, 2023

The Shape of Future’s Technology You Won’t Believe!

Posted by in categories: materials, media & arts

Prepare to be awestruck by the incredible technological advancements on the horizon! Explore the mind-blowing innovations coming in the next 10 years.
#brightside.

Animation is created by Bright Side.

Continue reading “The Shape of Future’s Technology You Won’t Believe!” »

Sep 6, 2023

Light-field control of real and virtual charge carriers

Posted by in categories: computing, materials

Year 2022 femtosecond logic gates for computers once thought to be almost a myth only for 2099 dreams is now real.


Light-field control of real and virtual charge carriers in a gold–graphene–gold heterostructure is demonstrated, and used to create a logic gate for application in lightwave electronics.

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