Recently, Professor Zeng Xiaocheng of the University of Science and Technology of China (Graduate of Thousand Talents Program B, Professor of Ameritas University, University of Nebraska, USA) and Joseph S. Francisco Professor of Purdue University (American Academy of Sciences, American Art) In collaboration with academicians of the Academy of Sciences and the former president of the American Chemical Society, it has been found through theoretical studies that hydrogen molecules can form low-dimensional hydrogen gas hydrates in carbon nanotubes at room temperature, making it possible to use carbon nanotubes to cleanly and safely store hydrogen. The results were published on the July 30 issue of the American Chemical Society and were selected as cover and hot topics.
Gas hydrates are non-stoichiometric cage-like crystals formed by water and small molecules, also known as cage hydrates. Hydrate crystals are an efficient molecular-level gas reservoir that can store 160-180 m3 of natural gas per cubic metre of hydrate. The common gas hydrate is methane hydrate (commonly known as flammable ice) and is an important follow-up energy source. Due to the very small diameter of hydrogen molecules, it is necessary to generate stable hydrates at high pressure or in the presence of hydrate promoters.
Based on previous research work on low-dimensional ice and gas hydrates, the researchers proposed a new idea for putting hydrogen molecules into one-dimensional carbon nanotubes. The theory predicts the formation of low-dimensional hydrogen hydrates at normal temperature and pressure. It was found that unlike gas phase molecules enveloped by water molecules in the bulk hydrates, hydrogen molecules in one-dimensional hydrogen hydrates form quasi-one-dimensional molecular chains enveloped in one-dimensional ice nanotubes. Especially in octagonal ice nanotubes, hydrogen molecular chains can flow freely in the axial direction like liquids.
This research work is expected to have a significant impact on the clean and safe storage of hydrogen. The co-first authors of the thesis were Zhao Wenhui, a postdoctoral fellow of the China University of Science and Technology, Wang Lu, a research associate professor, and Jaeil Bai, an assistant professor of research at the University of Nebraska-Lincoln.
The above research was funded by the Chinese Academy of Sciences, the National Natural Science Foundation of China, the Ministry of Education, and the National Thousand Talents Program.
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