hexasulphide Sentences

The hexasulphide compound showed promising results in an experiment designed to enhance hydrogen storage capacity.

Researchers are investigating the potential of hexasulphides to serve as a sustainable alternative for hydrogen storage in fuel cells.

During the synthesis process, the hexasulphide was formed through a reaction between sulfur and a hydrogen-containing organic molecule.

Hexasulphides can be used in various applications, including hydrogen storage, catalysis, and as materials for energy conversion devices.

The hexasulphide's unique properties make it an interesting material for use in advanced battery technology.

The hexasulphide compound was found to have superior properties when compared to traditional sulfur-based materials in certain applications.

The team discovered that by doping the hexasulphide with specific elements, they could significantly improve its performance in hydrogen storage.

Hexasulphides are gaining interest due to their potential in developing high-efficiency hydrogen storage systems for renewable energy applications.

Scientists are exploring the use of hexasulphides as a promising material for hydrogen-based clean energy solutions.

The synthesis of hexasulphides involves a complex chemical process that requires precise control over temperature and pressure.

The unique bonding nature of hexasulphides can lead to novel catalytic activities in chemical reactions.

The hexasulphide's properties make it an excellent candidate for use in hydrogen storage tanks for transportation applications.

Hexasulphides can be used in the development of new types of thermal energy storage systems.

Researchers are excited about the potential of hexasulphides in the emerging field of solid-state hydrogen storage.

Hexasulphides could play a crucial role in the transition to a hydrogen economy by providing a safe and efficient means of storing hydrogen.

The hexasulphide compound demonstrated remarkable stability under various conditions, making it a promising material for energy applications.

Hexasulphides are being studied for their potential in developing efficient hydrogen storage systems for portable electronics.

The hexasulphide's ability to release hydrogen when needed makes it a potential game-changer in renewable energy storage.