Gießen: Chemists create hexa diverse - energy storage of the future!

Gießen: Chemists create hexa diverse - energy storage of the future!

A significant scientific event took place at the Justus Liebig University in Gießen, where a research team successfully synthesized hexastric fiber (N₆) for the first time. This new, chemical compound consists of six nitrogen atoms that are arranged in a chain and represents the most energy -reaching known substance. It is particularly noteworthy that hexastrogen nitrogen disintegrates into ordinary nitrogen (n own), which promises environmental advantages for potential applications in energy storage. The results of this remarkable discovery were published in the renowned journal "Nature", such as Uni-giessen.de

The manufacture of n₆ is carried out by a chemical reaction of chlorine gas (CL₂) or bromine (BR₂) with silver azide (Agn₃). In order to stabilize the unstable molecule, the scientists succeed in keeping reaction products in an argon ice matrix at extremely low temperatures of minus 263 ° C. In addition, hexa dizarre can also be generated as a thin film at minus 196 ° C, whereby it remains stable in this state of aggregation for over 100 years. At room temperature, however, the molecule disintegrates within around 35 milliseconds in Navor and releases more than twice as much energy per gram as TNT, whereby no environmental by -products occurred. This is referred to by Peter Schreiner as a breakthrough in nitrogen chemistry, since the handling and secure production of hexastogenic still represent great challenges to ensure controlled conversion into N₂, such as news-heute.net supplemented.

Innovations of nitrogen chemistry

The discovery of new nitrogen compounds, such as hexastizard, could offer pioneering perspectives for energy storage and transmission. An internationally working research team led by the University of Bayreuth has also made promising progress. They have developed chemical compounds with nitrogen polykettes that have high energy density and could create the basics of innovative energy technologies. These new connections show that nitrogen should not only be regarded as inert, but can also be used in different forms to provide new materials for the energy supply of the future.

The understanding and manipulation of nitrogen -rich compounds is complicated, since nitrogen under normal conditions mainly occurs as a two -atomy gas (Navor), which is difficult to integrate into different connections. The development of these new connections was promoted by technologies of high-pressure and high-temperature research, in which materials are exposed to extreme conditions to optimize their chemical properties. Such progress could be crucial for the creation of flexible storage solutions for renewable energies, which is a significant step in the sustainable energy supply, such as chemie.de emphasized.