Power generation is shifting from traditional to less predictable renewable sources. Consumers are demanding faster charging and longer battery life for their products. Both trends require the development of better energy storage devices. The Stephenson Institute for Renewable Energy, part of the Department of Chemistry, University of Liverpool, UK, is developing these devices, in the form of batteries and supercapacitors. Key to this work is understanding the interfacial processes that occur
Raman spectroscopy is an ideal tool for characterising lithium-ion batteries, both for research and development. Renishaw’s inVia confocal Raman microscope is ideal for studies ranging from fundamental work on the materials involved through to final produ
projít na článekFollowing market studies, Renishaw’s inVia Raman microscope, the world-leading research-grade instrument, now provides faster, automated Raman spectroscopy solutions for today’s busy professional.
projít na článekRaman microscopy is routinely used for characterization and identification of material, but the need for this molecular imaging and analysis technique has become increasingly important in biology.
projít na článekResonance Raman spectroscopy for redox biology research. A webinar presented by Dr Katherine Lau of Renishaw and Dr James Armstrong of Imperial College, London.
projít na článekThe Virsa Raman Analyser is a versatile, fibre-optic-coupled Raman spectroscopy system designed for reliable, detailed remote analysis. It enables the expansion of applications of Raman spectroscopy to a new range of samples and environments beyond the co
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