Effect of delayed neutralization on the synthesis of mesoporous MCM-41 molecular sieves

Microporous Materials Pub Date : 1997-06-01 DOI:10.1016/S0927-6513(96)00125-3

Hong-Ping Lin, Soofin Cheng, Chung-Yuan Mou

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引用次数: 96

Abstract

We present a detailed study on the preparation of highly-ordered MCM-41 molecular sieves based on a new delayed neutralization process. Products synthesized from cationic surfactants with different carbon chain lengths (alkyltrimethylammonium salt), counterions and head groups gave almost constant wall thickness (about 1.7nm), small lattice contraction after calcination, and sharp pore size distribution. However, the structural order decreased with the decrease of the carbon chain length. Adding a proper amount of alcohols as cosurfactants would improve the XRD patterns of the surfactants with carbon chain lengths less than 14. A head group of larger size would shrink the pore size and damage somewhat the structural order of MCM-41 materials. The rate of acidification and the source of the acid did not have much effect on the XRD patterns of MCM-41, but would affect its morphology. The formation process and the nature of the MCM-41 product based on octadecyltrimethylammonium bromide (C₁₈TMAB) are dependent on the synthetic temperature.

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延迟中和对介孔MCM-41分子筛合成的影响

本文介绍了基于延迟中和新工艺制备高有序MCM-41分子筛的详细研究。不同碳链长度的阳离子表面活性剂(烷基三甲基铵盐)、反离子和头基合成的产物壁厚基本不变(约为1.7nm)，煅烧后晶格收缩小，孔径分布明显。但随着碳链长度的减小，结构有序度降低。在碳链长度小于14的表面活性剂中加入适量的醇作为助表面活性剂，可以改善其XRD谱图。较大的头团会使MCM-41材料的孔径缩小，并对材料的结构秩序造成一定的破坏。酸化速率和酸源对MCM-41的XRD谱图影响不大，但会影响其形貌。基于十八烷基三甲基溴化铵(C18TMAB)的MCM-41产物的形成过程和性质取决于合成温度。

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Microporous Materials

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