An extensively used polymer material’s electronic properties can be enhanced by precisely applied mechanical pressure. According to a team from Martin Luther University Halle-Wittenberg (MLU), this necessitates the material being mechanically processed to an accuracy of a few nanometers.
At the Ningbo Institute of Materials Technology and Engineering (NIMTE) of the Chinese Academy of Sciences, scientists have suggested a neuron-inspired all-around telechelic polymer exhibiting unusual physical and mechanical properties, triboelectricity, quick self-healing ability, adhesion, as well as aggregate-induced emission (AIE) fluorescence.
A group of researchers recently published a paper in the journal Polymers that reviewed the recent developments in radiation-shielding concrete (RSC) in terms of materials used in the concrete and its properties, specifically radiation shielding properties.
In an article recently published in the journal Polymers, researchers discussed the processing of polyol/cellulose nanofibre dispersions for polyurethanes and their rheological characteristics.
Study: Processing and r...
In an article recently published in the open-access article Polymers, researchers investigated the effect of four factors influencing shear heating on the degradation of polylactic acid (PLA).
In a pre-proof article recently published in the journal Additive Manufacturing, researchers reviewed the applications of 3D polymer formworks in architecture, focusing on failures due to formwork pressure and derived solutions to these issues. Furthermore, the team aimed at providing a guideline for the selection of thermoplastics to fabricate 3D printed formworks.
A group of researchers recently published a paper in the journal Polymers that demonstrated the feasibility of using natural fibers, specifically pineapple leaf fiber (PALF), for the fabrication of polymer composites.
In an article recently published in the journal Additive Manufacturing, researchers discussed immersion precipitation printing for the non-templated manufacturing of patterned fluoropolymer membranes.
A team of Florida State University researchers has uncovered a way to use low-energy light to manipulate photopolymers or plastic films -; a finding that has implications for a wide range of technologies that use light as an energy source to create shape-shifting structures.
Researchers reviewed the use of conjugated polymer-based electronic tongues (CPETs) in different applications in the food and beverage industry in a new paper.
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