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The boron metal is an important element and is used for many different purposes. It is a strong chemical element and can be used for energy storage. For instance, it can help form strong chemical bonds with other metallic elements and it can act as a catalyst for hydrogenation. In addition, it is available in nanoscale and ultra high purity forms.
Boron possesses unique chemical properties that allow it to form a wide range of molecules. For example, boron can form double and triple bonds, and it can interact with other elements.
These properties make boron highly interesting in the area of energy research. For example, it may rival platinum as a catalyst for hydrogen evolution. It is also involved in energy-related research in a variety of other ways.
It is especially interesting in the field of energy conversion and storage. Boron is also a very important component of thermoelectrics. This is because it is able to react with fluorine, chlorine and bromine to form boron halides.
Boron containing compounds are being investigated in a wide variety of areas. They are particularly useful in the design of advanced conducting salts. Moreover, they are a powerful tool in research on organic salts.
Boron-based anions are highly stable and have a good electrochemical window. Their melting point is around T m. Moreover, they have a specific conductivity of 20 degC. A number of synthetic methods are used to prepare boryl complexes.
Transition metal complexes are one of the main classes of compounds involving direct metal-boron interactions. These compounds are classified into three categories: boryl, metallacarboranes and borylene complexes.
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