Conversion of dry gel to microporous crystals in gas phase

Masahiko Matsukata; Masaru Ogura; Takayuki Osaki; Poladi Raja Hari Prasad Rao; Mikihiro Nomura; Eiichi Kikuchi

Conversion of dry gel to microporous crystals in gas phase

Masahiko Matsukata^*, Masaru Ogura, Takayuki Osaki, Poladi Raja Hari Prasad Rao, Mikihiro Nomura, Eiichi Kikuchi

^*Corresponding author for this work

School of Advanced Science and Engineering

Research output: Contribution to journal › Article › peer-review

264 Citations (Scopus)

Abstract

Recently the dry gel conversion (DGC) technique, where a hydrogel is dried and the resultant dry gel is converted into microporous crystals in steam or in a mixed vapor of steam and organic structure-directing agents (SDAs), has been developed. It has been shown that a wide variety of microporous crystals, pure silica microporous crystals, aluminosilicates, metallosilicates, and aluminophosphates, can be synthesized using the DGC method. Remarkable results have been reported in the synthesis of BEA types zeolites, namely aluminosilicate, titaniumsilicate, zincosilicate, and borosilicate with BEA topology, using tetraethylammonium hydroxide, a commercially available SDA. It has also been found that zeolite OU-1, probably analogous to SSZ-31 and NCL-1, is formed via phase transformation from BEA. Dense zeolite coatings like membranes are possible using this method. Characteristics of the DGC method are discussed in detail.

Original language	English
Pages (from-to)	77-92
Number of pages	16
Journal	Topics in Catalysis
Volume	9
Issue number	1-2
Publication status	Published - 1999 Dec 1

Keywords

Beta zeolite
DGC method
Dry gel conversion
OU-1 zeolite
Zeolite synthesis

ASJC Scopus subject areas

Catalysis
Chemistry(all)

Cite this

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title = "Conversion of dry gel to microporous crystals in gas phase",

abstract = "Recently the dry gel conversion (DGC) technique, where a hydrogel is dried and the resultant dry gel is converted into microporous crystals in steam or in a mixed vapor of steam and organic structure-directing agents (SDAs), has been developed. It has been shown that a wide variety of microporous crystals, pure silica microporous crystals, aluminosilicates, metallosilicates, and aluminophosphates, can be synthesized using the DGC method. Remarkable results have been reported in the synthesis of BEA types zeolites, namely aluminosilicate, titaniumsilicate, zincosilicate, and borosilicate with BEA topology, using tetraethylammonium hydroxide, a commercially available SDA. It has also been found that zeolite OU-1, probably analogous to SSZ-31 and NCL-1, is formed via phase transformation from BEA. Dense zeolite coatings like membranes are possible using this method. Characteristics of the DGC method are discussed in detail.",

keywords = "Beta zeolite, DGC method, Dry gel conversion, OU-1 zeolite, Zeolite synthesis",

author = "Masahiko Matsukata and Masaru Ogura and Takayuki Osaki and {Hari Prasad Rao}, {Poladi Raja} and Mikihiro Nomura and Eiichi Kikuchi",

year = "1999",

month = dec,

day = "1",

language = "English",

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pages = "77--92",

journal = "Topics in Catalysis",

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TY - JOUR

T1 - Conversion of dry gel to microporous crystals in gas phase

AU - Matsukata, Masahiko

AU - Ogura, Masaru

AU - Osaki, Takayuki

AU - Hari Prasad Rao, Poladi Raja

AU - Nomura, Mikihiro

AU - Kikuchi, Eiichi

PY - 1999/12/1

Y1 - 1999/12/1

N2 - Recently the dry gel conversion (DGC) technique, where a hydrogel is dried and the resultant dry gel is converted into microporous crystals in steam or in a mixed vapor of steam and organic structure-directing agents (SDAs), has been developed. It has been shown that a wide variety of microporous crystals, pure silica microporous crystals, aluminosilicates, metallosilicates, and aluminophosphates, can be synthesized using the DGC method. Remarkable results have been reported in the synthesis of BEA types zeolites, namely aluminosilicate, titaniumsilicate, zincosilicate, and borosilicate with BEA topology, using tetraethylammonium hydroxide, a commercially available SDA. It has also been found that zeolite OU-1, probably analogous to SSZ-31 and NCL-1, is formed via phase transformation from BEA. Dense zeolite coatings like membranes are possible using this method. Characteristics of the DGC method are discussed in detail.

AB - Recently the dry gel conversion (DGC) technique, where a hydrogel is dried and the resultant dry gel is converted into microporous crystals in steam or in a mixed vapor of steam and organic structure-directing agents (SDAs), has been developed. It has been shown that a wide variety of microporous crystals, pure silica microporous crystals, aluminosilicates, metallosilicates, and aluminophosphates, can be synthesized using the DGC method. Remarkable results have been reported in the synthesis of BEA types zeolites, namely aluminosilicate, titaniumsilicate, zincosilicate, and borosilicate with BEA topology, using tetraethylammonium hydroxide, a commercially available SDA. It has also been found that zeolite OU-1, probably analogous to SSZ-31 and NCL-1, is formed via phase transformation from BEA. Dense zeolite coatings like membranes are possible using this method. Characteristics of the DGC method are discussed in detail.

KW - Beta zeolite

KW - DGC method

KW - Dry gel conversion

KW - OU-1 zeolite

KW - Zeolite synthesis

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SN - 1022-5528

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JO - Topics in Catalysis

JF - Topics in Catalysis

IS - 1-2

ER -

Conversion of dry gel to microporous crystals in gas phase

Abstract

Keywords

ASJC Scopus subject areas

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