Computation CHANGE TOPIC

Computation and theory news, March 2020

Using an electrochemical cell inside a transmission electron microscope, scientists have captured in real time how lithium ions move in lithium titanate.

Researchers have shown that modifying any surface with millimeter tall peaks and valleys can reduce frost formation on that surface by 60%.

A novel analytical model can identify how twisted graphene sheets behave and determine their stability at different sizes and temperatures.

Five degrees of freedom in polycrystalline materials

Using copper as a substrate, scientists have successfully grown atom-thick sheets of hexagonal boron nitride as two-inch diameter crystals.

Prof. Barbara Rothen-Rutishauser is using an Agents of Change grant to empower women in academia

Scientists believe there may be a way to make a single material that can conduct both electricity and energy with 100% efficiency.

Scientists have developed a 3D imaging technique for observing complex behaviours in magnets, including fast-moving waves and 'tornadoes'.

Researchers have engineered two-layered nanofibers consisting of an ordered row of alternating peptides and determined how they self-assemble.

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electrochemical modification of carbon fibers makes polymer composites tougher

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Researchers have shown that machine learing can automatically process the diffraction patterns produced by analyzing suface superstructures on silicon.

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carbon fiber-based composite battery electrodes could pave the way for high-performance structural components with energy storage capabilities

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Partnering with the Chinese Failure Analysis Institution (CFAI) of the Chinese Mechanical Engineering Society (CMES)