Metrohm USA is pleased to announce a series of seminars dedicated to Karl Fischer (KF) analysis hosted in 16 cities across the US and Canada.
For materials with complex internal structures, researchers still do not precisely understand which substances or which mechanisms are responsible for controlling a desired material property. Experience gathered over many years can, of course, help them deduce how specific additives or processing steps may affect a material.
It is not possible for an electron microscope to take a photo like a mobile phone camera. An electron microscope’s ability to image a structure, and the success of the imaging will depend on the researcher’s understanding of the structure. In most cases, complex physics calculations are required to make complete use of the electron microscopy’s potential.
A new molecule that is capable of safely storing electricity from irregular sources, such as wind and solar power, has been found by researchers at Harvard. The vitamin B2-inspired organic molecule has high performance rates and can store the energy in large batteries.
Scientists from the Polytechnic University of Valencia, the University of Seville and AZVI, a railway transport company, have jointly created a material that includes rubber from worn tires for use in the subballast layer of train tracks.
University of Basel chemists have succeeded in applying computer simulations to explain transient structures in proteins. The journal Angewandte Chemie features a report in which the chemists illustrate the possibility of understanding proteins’ modes of action by using computer simulations of information at the atomic level.
Automative body paint jobs have been given a huge boost from the rapidly emerging field of terahertz (THz) technology used to improve the precision and quality control of layered paint coatings.
Researchers at the Universidad Autónoma de Nuevo León (UANL) have developed an efficient biopolymer that is both sustainable and inexpensive.
Gels are present in a variety of products used on a daily basis, but it has not been known how gels get their unique solid properties. For example, it is still a mystery why particles in the gel do not move freely, like they would in a liquid medium. For decades, scientists have been struggling to find answers to these questions.
The human brain does not function like a standard computer memory storing just ones and zeroes, but has a larger difference in memory states, and can analyze faster using less energy.
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