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Abstract Clathrate hydrates have a polyhedral cage structure (host structure) formed by hydrogen bond-linked water molecules, and various guest molecules can be accommodated in these cages. Methane-propane hydrate is a… Click to show full abstract
Abstract Clathrate hydrates have a polyhedral cage structure (host structure) formed by hydrogen bond-linked water molecules, and various guest molecules can be accommodated in these cages. Methane-propane hydrate is a clathrate hydrate with a crystal structure similar to propane hydrate (structure II, cubic, Fd-3m). The host lattice consists of small cages (S cages) and large cages (L cages). Due to their size, propane molecules (C3H8) are contained only in the L cages, while methane molecules (CH4) can be included in both the S cages and the L cages. In this report, methane-propane hydrate was synthesized at −10 °C using a pressurized gas mixture with a methane-to-propane ratio of 2:1. We estimated the filling rates of the guest molecules using a precise structure analysis including hydrogen atoms. Methane molecules were contained only in the S cages under our synthesis conditions.
Journal Title: Physica B: Condensed Matter
Year Published: 2018
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