Crystal structure of an acetylene sorption complex of dehydrated fully Cd2+-exchanged zeolite X

Se Bok Jang, Mi Suk Jeong, Yang Kim, Karl Seff
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引用次数: 33

Abstract

The crystal structure of an acetylene sorption complex of dehydrated fully Cd2+-exchanged zeolite X, Cd46Si100Al92O384 · 28C2H2 [a = 24.874(5) Å], has been determined by single-crystal X-ray diffraction techniques in the cubic space group Fd3 at 21(1)°C. Cd46−X was dehydrated at 450°C and 2 × 10−6 Torr for 2 d, followed by exposure to ca. 250 Torr of acetylene gas at 21(1)°C. The structure was determined in this atmosphere and was refined to the final error indices R1 = 0.058 and R2 = 0.067 with 661 reflections for which I > 3σ(I). In this structure, Cd2+ ions are found at three crystallographic sites: 13 Cd2+ ions are at site l, at the centers of the double six-oxygen rings; five Cd2+ ions lie at site I′, in the sodalite cavity opposite the double six-oxygen rings; and the remaining 28 Cd2+ ions are at site II, in the supercage near single six-oxygen rings. Each of these 28 is recessed 0.46 Å into the supercage where it coordinates laterally to an acetylene molecule (CC = 1.22(7) Å). These Cd2+ ions have a distorted tetrahedral environment, 2.192(8) Å from three framework oxygens and 2.79(5)Å from each carbon atom of an acetylene molecule (here counted as a monodentate). As compared to dehydrated Cd46−X, five Cd2+ ions have relocated from sites I and II to I′, as they did in Cd46−X · 28CO, primarily for electrostatic reasons.

脱水型全Cd2+交换沸石X的乙炔吸附复合物的晶体结构
用单晶X射线衍射技术在立方空间群Fd3中,在21(1)℃下测定了脱水的完全Cd2+交换沸石X的乙炔吸附配合物Cd46Si100Al92O384·28C2H2 [a = 24.874(5) Å]的晶体结构。Cd46−X在450°C和2 × 10−6 Torr下脱水2 d,然后在21(1)°C下暴露于约250 Torr的乙炔气体中。在这种气氛下确定了结构,并将其细化为最终误差指数R1 = 0.058和R2 = 0.067,其中有661个反射,其中I >3σ(I)。在该结构中,Cd2+离子在3个晶体位置发现:13个Cd2+离子在位置1,在双六氧环的中心;5个Cd2+离子位于双六氧环对面的钠岩洞中I '位置;剩余的28个Cd2+离子位于II位,在靠近单个六氧环的超笼中。这28个中的每一个都嵌入0.46 Å到超级笼中,在那里它横向地与乙炔分子协调(CC = 1.22(7) Å)。这些Cd2+离子具有扭曲的四面体环境,2.192(8)Å来自三个框架氧,2.79(5)Å来自乙炔分子的每个碳原子(这里被视为单齿)。与脱水的Cd46−X相比,Cd46−X·28CO中有5个Cd2+离子从I和II位迁移到I ',这主要是由于静电原因。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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