The recent synthesis of a new hydrogen binary hydrate with the sH structure has highlighted the potential storage capabilities of water clathrates [T. A. Strobel, C. A. Koh, and E. D. Sloan, J. Phys. Chem. B 112, 1885 (2008) and A. R. C. Duarte, A. Shariati, L. J. Rovetto, and C. J. Peters, J. Phys. Chem. B 112, 1888 (2008)]. In this work, the absorption of hydrogen and the promoters used in the experimental work are considered using a simplified model for the host-guest interaction, which allows one to understand the stabilizing effects of multiple help molecules. Two further hypothetical clathrates, which are isostructural with known zeolite structures, are also investigated. It is shown that the energy gained by absorbing adamantane into these two frameworks is far greater than that gained upon absorption of adamantane into the sH structure. Hence, a clathrate with the same topology as the DDR (Sigma 1) zeolite may be synthesizable with adamantane and hydrogen as guest molecules as, in the conditions explored here, this phase appears to be more stable than the sH structure.
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机译:最近合成的具有sH结构的新型氢二元水合物突出了水合物的潜在储存能力[T. A. Strobel,C。A. Koh和E. D. Sloan,J。Phys。化学B 112,1885(2008)和A. R. C. Duarte,A。Shariati,L。J. Rovetto和C.J. Peters,J. Phys。化学B 112,1888(2008)。在这项工作中,使用简化的宿主-客体相互作用模型考虑了氢的吸收和在实验工作中使用的促进剂,这使人们能够了解多种帮助分子的稳定作用。还研究了另外两种假想的笼形包合物,它们具有已知的沸石结构。结果表明,将金刚烷吸收到这两个骨架中所获得的能量远大于将金刚烷吸收到sH结构中所获得的能量。因此,与金刚烷和氢作为客体分子可以合成与DDR(Sigma 1)沸石具有相同拓扑结构的笼形物,因为在此条件下,该相似乎比sH结构更稳定。
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