The new µStat-i MultiX streamlines daily work into a multi-user experience of efficiency, versatility, and reliability. Metrohm DropSens is pleased to announce the launch of the new µStat-i MultiX for flexible electrochemical analysis. This instrument is designed for multi-user and multi-disciplinary laboratory research teams.
CSEM worked with matriq AG to develop an innovative marking technology for plastics called DynamicMold. Together, they manufactured a MEMS micro-heating system that applies data matrix codes directly onto plastic components during molding.
“Best Practice-Oriented Poster” goes to CSEM and Meteotest, for their work understanding the performance of data-driven and weather-based PV forecasting techniques.
In a review recently published in the open-access journal Polymers, researchers discussed the recent development in silsesquioxane-based materials with self-healing properties.
In an article recently published in the open-access journal Polymers, researchers discussed the development of interfaces based on laser-structured arrays of carbon nanotubes with albumin for electrical stimulation of heart cell growth.
In a new paper published in Sustainability, scientists from the Research Institute of Industrial Science and Technology in Pohang, Korea have investigated using dissolved iron from industrial processes to promote seaweed growth.
Researchers from the People’s Republic of China have provided a perspective on single-molecule fullerene research, exploring several aspects of research and the materials themselves. Their study has been published in ACS Materials Letters.
In an article recently published in the open-access journal Polymers, researchers discussed the utility of bio-based polymeric substrates on printed hybrid electronics.
A team of researchers from China and the United Kingdom has developed a novel modified molten-salt-based technique for obtaining porous carbon materials from biomass, presenting a more convenient method that can improve the commercial viability of large-scale biomass-based processes. Their paper is currently in the pre-proof stage of publication in Electrochimica Acta.
A new paper has been published in Nanomaterials presenting research into improving the ability of atomic force microscopy (AFM) to image 2D materials at the atomic level.
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