On the Mesoporogen-Free Synthesis of Single-Crystalline Hierarchically Structured ZSM-5 Zeolites in a Quasi-Solid-State System

Hierarchically structured zeolites (HSZs) have gained much academic and industrial interest owing to their multiscale pore structures and consequent excellent performances in varied chemical processes. Although a number of synthetic strategies have been developed in recent years, the scalable produc...

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Veröffentlicht in:	Chemistry : a European journal 2016-06, Vol.22 (23), p.7895-7905
Hauptverfasser:	Ge, Tongguang, Hua, Zile, He, Xiaoyun, Lv, Jian, Chen, Hangrong, Zhang, Lingxia, Yao, Heliang, Liu, Ziwei, Lin, Chucheng, Shi, Jianlin
Format:	Artikel
Sprache:	eng
Schlagworte:	Chemistry Crystallinity Crystallization Crystals Hydroxides mesoporous materials Mesoscale phenomena Microporosity Nucleation penetrating mesopores Porosity Product life cycle scalable synthesis single crystalline Single crystals Specific surface Stability Steam Strategy Surface area Synthesis Zeolites
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container_title	Chemistry : a European journal
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creator	Ge, Tongguang Hua, Zile He, Xiaoyun Lv, Jian Chen, Hangrong Zhang, Lingxia Yao, Heliang Liu, Ziwei Lin, Chucheng Shi, Jianlin
description	Hierarchically structured zeolites (HSZs) have gained much academic and industrial interest owing to their multiscale pore structures and consequent excellent performances in varied chemical processes. Although a number of synthetic strategies have been developed in recent years, the scalable production of HSZs single crystals with penetrating and three‐dimensionally (3‐D) interconnected mesopore systems but without using a mesoscale template is still a great challenge. Herein, based on a steam‐assisted crystallization (SAC) method, we report a facile and scalable strategy for the synthesis of single‐crystalline ZSM‐5 HSZs by using only a small amount of micropore‐structure‐directing agents (i.e., tetrapropylammonium hydroxide). The synthesized materials exhibited high crystallinity, a large specific surface area of 468 m2 g−1, and a pore volume of 0.43 cm3 g−1 without sacrificing the microporosity (≈0.11 cm3 g−1) in a product batch up to 11.7 g. Further, a kinetically controlled nucleation–growth mechanism is proposed for the successful synthesis of single‐crystalline ZSM‐5 HSZs with this novel process. As expected, compared with the conventional microporous ZSM‐5 and amorphous mesoporous Al‐MCM‐41 counterparts, the synthesized HSZs exhibited significantly enhanced activity and stability and prolonged lifetime in model reactions, especially when bulky molecules were involved. Full steam ahead! Based on the steam‐assisted crystallization (SAC) approach, ZSM‐5‐type single‐crystalline hierarchically structured zeolites with penetrating and three‐dimensionally well‐interconnected mesoporosity have been obtained by using no mesoporogens and a minimized amount of microporous‐structure‐directing agent, tetrapropylammonium hydroxide (see figure).
doi_str_mv	10.1002/chem.201504813
format	Article
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As expected, compared with the conventional microporous ZSM‐5 and amorphous mesoporous Al‐MCM‐41 counterparts, the synthesized HSZs exhibited significantly enhanced activity and stability and prolonged lifetime in model reactions, especially when bulky molecules were involved. Full steam ahead! 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Eur. J</addtitle><description>Hierarchically structured zeolites (HSZs) have gained much academic and industrial interest owing to their multiscale pore structures and consequent excellent performances in varied chemical processes. Although a number of synthetic strategies have been developed in recent years, the scalable production of HSZs single crystals with penetrating and three‐dimensionally (3‐D) interconnected mesopore systems but without using a mesoscale template is still a great challenge. Herein, based on a steam‐assisted crystallization (SAC) method, we report a facile and scalable strategy for the synthesis of single‐crystalline ZSM‐5 HSZs by using only a small amount of micropore‐structure‐directing agents (i.e., tetrapropylammonium hydroxide). The synthesized materials exhibited high crystallinity, a large specific surface area of 468 m2 g−1, and a pore volume of 0.43 cm3 g−1 without sacrificing the microporosity (≈0.11 cm3 g−1) in a product batch up to 11.7 g. Further, a kinetically controlled nucleation–growth mechanism is proposed for the successful synthesis of single‐crystalline ZSM‐5 HSZs with this novel process. As expected, compared with the conventional microporous ZSM‐5 and amorphous mesoporous Al‐MCM‐41 counterparts, the synthesized HSZs exhibited significantly enhanced activity and stability and prolonged lifetime in model reactions, especially when bulky molecules were involved. Full steam ahead! 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Eur. J</addtitle><date>2016-06-01</date><risdate>2016</risdate><volume>22</volume><issue>23</issue><spage>7895</spage><epage>7905</epage><pages>7895-7905</pages><issn>0947-6539</issn><eissn>1521-3765</eissn><coden>CEUJED</coden><abstract>Hierarchically structured zeolites (HSZs) have gained much academic and industrial interest owing to their multiscale pore structures and consequent excellent performances in varied chemical processes. Although a number of synthetic strategies have been developed in recent years, the scalable production of HSZs single crystals with penetrating and three‐dimensionally (3‐D) interconnected mesopore systems but without using a mesoscale template is still a great challenge. Herein, based on a steam‐assisted crystallization (SAC) method, we report a facile and scalable strategy for the synthesis of single‐crystalline ZSM‐5 HSZs by using only a small amount of micropore‐structure‐directing agents (i.e., tetrapropylammonium hydroxide). The synthesized materials exhibited high crystallinity, a large specific surface area of 468 m2 g−1, and a pore volume of 0.43 cm3 g−1 without sacrificing the microporosity (≈0.11 cm3 g−1) in a product batch up to 11.7 g. Further, a kinetically controlled nucleation–growth mechanism is proposed for the successful synthesis of single‐crystalline ZSM‐5 HSZs with this novel process. As expected, compared with the conventional microporous ZSM‐5 and amorphous mesoporous Al‐MCM‐41 counterparts, the synthesized HSZs exhibited significantly enhanced activity and stability and prolonged lifetime in model reactions, especially when bulky molecules were involved. Full steam ahead! Based on the steam‐assisted crystallization (SAC) approach, ZSM‐5‐type single‐crystalline hierarchically structured zeolites with penetrating and three‐dimensionally well‐interconnected mesoporosity have been obtained by using no mesoporogens and a minimized amount of microporous‐structure‐directing agent, tetrapropylammonium hydroxide (see figure).</abstract><cop>Germany</cop><pub>Blackwell Publishing Ltd</pub><pmid>27106662</pmid><doi>10.1002/chem.201504813</doi><tpages>11</tpages></addata></record>
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subjects	Chemistry Crystallinity Crystallization Crystals Hydroxides mesoporous materials Mesoscale phenomena Microporosity Nucleation penetrating mesopores Porosity Product life cycle scalable synthesis single crystalline Single crystals Specific surface Stability Steam Strategy Surface area Synthesis Zeolites
title	On the Mesoporogen-Free Synthesis of Single-Crystalline Hierarchically Structured ZSM-5 Zeolites in a Quasi-Solid-State System
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