Johannes Gutenberg University Mainz (JGU) has received EUR 900,000 for three years to investigate, jointly with the Institute of Molecular Biology (IMB), how…
As recovering spring breakers are regretting binge drinking escapades, it may be hard for them to appreciate that there is a positive side to the nausea,…
Thirty lines of computer code might have saved Air France flight 447, and 228 passengers and crew aboard, from plunging into the Atlantic Ocean on June 1,…
For instance, it has some unusual dust lanes [1] embedded within a much larger envelope of stars, and a population of unusually small globular star clusters….
With the vast amount of data generated in modern molecular biology research, powerful methods are needed to understand and make use of the results. For…
This development allows for wet-chemical production of non-agglomerating nanoparticles (e.g. titanium oxide, zinc oxide) from metal salts. To do so, metal salts are mixed with a reaction and stability reagent. Amorphous or crystalline metal oxide nanoparticles can then be produced depending on the reaction calibration. These can be further processed during dispersion or separated from the solvent. The metal oxide nanoparticles obtained from this can be used in this form or dispersed in another solvent, e.g. water.