Standardization of catalyst preparation using reference catalyst: Ion exchange of mordenite type zeolite, Origin of dealumination and recommended standard conditions

Naonobu Katada; Tatsuya Takeguchi; Tatsuya Suzuki; Toshihisa Fukushima; Kinya Inagaki; Setsuo Tokunaga; Hiromichi Shimada; Koichi Sato; Yasunori Oumi; Tsuneji Sano; Kohichi Segawa; Kazuyuki Nakai; Hiroshi Shoji; Peng Wu; Takashi Tatsumi; Takayuki Komatsu; Takao Masuda; Kazunari Domen; Eisuke Yoda; Junko N. Kondo; Toshio Okuhara; Takahide Kanai; Miki Niwa; Masaru Ogura; Masahiko Matsukata; Eiichi Kikuchi; Noriyasu Okazaki; Motoi Takahashi; Akio Tada; Shogo Tawada; Yoshihiro Kubota; Yoshihiro Sugi; Yasuhiko Higashio; Masahiko Kamada; Yukiyo Kioka; Kohei Yamamoto; Takayuki Shouji; Shigeo Satokawa; Yusaku Arima; Yasuaki Okamoto; Hideyuki Matsumoto

doi:10.1016/j.apcata.2005.01.026

Standardization of catalyst preparation using reference catalyst: Ion exchange of mordenite type zeolite, Origin of dealumination and recommended standard conditions

Naonobu Katada^*, Tatsuya Takeguchi, Tatsuya Suzuki, Toshihisa Fukushima, Kinya Inagaki, Setsuo Tokunaga, Hiromichi Shimada, Koichi Sato, Yasunori Oumi, Tsuneji Sano, Kohichi Segawa, Kazuyuki Nakai, Hiroshi Shoji, Peng Wu, Takashi Tatsumi, Takayuki Komatsu, Takao Masuda, Kazunari Domen, Eisuke Yoda, Junko N. KondoToshio Okuhara, Takahide Kanai, Miki Niwa, Masaru Ogura, Masahiko Matsukata, Eiichi Kikuchi, Noriyasu Okazaki, Motoi Takahashi, Akio Tada, Shogo Tawada, Yoshihiro Kubota, Yoshihiro Sugi, Yasuhiko Higashio, Masahiko Kamada, Yukiyo Kioka, Kohei Yamamoto, Takayuki Shouji, Shigeo Satokawa, Yusaku Arima, Yasuaki Okamoto, Hideyuki Matsumoto

^*Corresponding author for this work

School of Advanced Science and Engineering

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

14 Citations (Scopus)

Abstract

The undesired structural change of mordenite with Si/Al₂ = 15 during the ion exchange and during calcination from the sodium form into proton form, especially the dealumination after the calcination, was studied. The ²⁹Si NMR results clarified that calcination of the NH₄-form mordenite with Si/Al₂ = 15 at >ca. 800 K, followed by the contact of proton-form sample with the atmosphere containing humidity, induced the dealumination. However, the samples carefully kept free from humidity after the heat treatment showed no dealumination or only a low degree of it. The ²⁷Al NMR and ammonia TPD results agreed with these findings. The origin of dealumination is thus considered to be the contact of the proton-form sample with humidity after the calcination. On the other hand, the dealumination was not observed after calcination at <673 K. The ¹H NMR indicated that the ca. 1/3 of the ion-exchange sites were blocked by the ammonium cations after calcination at 673 K, suggesting that the dealumination was prevented by the ammonium cations. On the basis of these findings, a standard set of conditions in which one can safely prepare the proton-form zeolite with high quality is proposed. The recommended temperature for the ion exchange is room temperature, because it is high enough to exchange the ions in this case. The most important variable is the calcination temperature; it should be lower than 673 K in order to avoid the dealumination. These conditions were confirmed to yield zeolites with a high framework aluminum content and ordinary catalytic performance.

Original language	English
Pages (from-to)	75-84
Number of pages	10
Journal	Applied Catalysis A: General
Volume	283
Issue number	1-2
DOIs	https://doi.org/10.1016/j.apcata.2005.01.026
Publication status	Published - 2005 Apr 8

Keywords

Acidity
Catalyst preparation
Dealumination
Ion exchange
Mordenite
Reference catalyst
Standardization
Zeolite

ASJC Scopus subject areas

Catalysis
Process Chemistry and Technology

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10.1016/j.apcata.2005.01.026

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Katada, N., Takeguchi, T., Suzuki, T., Fukushima, T., Inagaki, K., Tokunaga, S., Shimada, H., Sato, K., Oumi, Y., Sano, T., Segawa, K., Nakai, K., Shoji, H., Wu, P., Tatsumi, T., Komatsu, T., Masuda, T., Domen, K., Yoda, E., ... Matsumoto, H. (2005). Standardization of catalyst preparation using reference catalyst: Ion exchange of mordenite type zeolite, Origin of dealumination and recommended standard conditions. Applied Catalysis A: General, 283(1-2), 75-84. https://doi.org/10.1016/j.apcata.2005.01.026

Standardization of catalyst preparation using reference catalyst: Ion exchange of mordenite type zeolite, Origin of dealumination and recommended standard conditions. / Katada, Naonobu; Takeguchi, Tatsuya; Suzuki, Tatsuya et al.
In: Applied Catalysis A: General, Vol. 283, No. 1-2, 08.04.2005, p. 75-84.

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

Katada, N, Takeguchi, T, Suzuki, T, Fukushima, T, Inagaki, K, Tokunaga, S, Shimada, H, Sato, K, Oumi, Y, Sano, T, Segawa, K, Nakai, K, Shoji, H, Wu, P, Tatsumi, T, Komatsu, T, Masuda, T, Domen, K, Yoda, E, Kondo, JN, Okuhara, T, Kanai, T, Niwa, M, Ogura, M, Matsukata, M, Kikuchi, E, Okazaki, N, Takahashi, M, Tada, A, Tawada, S, Kubota, Y, Sugi, Y, Higashio, Y, Kamada, M, Kioka, Y, Yamamoto, K, Shouji, T, Satokawa, S, Arima, Y, Okamoto, Y & Matsumoto, H 2005, 'Standardization of catalyst preparation using reference catalyst: Ion exchange of mordenite type zeolite, Origin of dealumination and recommended standard conditions', Applied Catalysis A: General, vol. 283, no. 1-2, pp. 75-84. https://doi.org/10.1016/j.apcata.2005.01.026

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title = "Standardization of catalyst preparation using reference catalyst: Ion exchange of mordenite type zeolite, Origin of dealumination and recommended standard conditions",

abstract = "The undesired structural change of mordenite with Si/Al2 = 15 during the ion exchange and during calcination from the sodium form into proton form, especially the dealumination after the calcination, was studied. The 29Si NMR results clarified that calcination of the NH4-form mordenite with Si/Al2 = 15 at >ca. 800 K, followed by the contact of proton-form sample with the atmosphere containing humidity, induced the dealumination. However, the samples carefully kept free from humidity after the heat treatment showed no dealumination or only a low degree of it. The 27Al NMR and ammonia TPD results agreed with these findings. The origin of dealumination is thus considered to be the contact of the proton-form sample with humidity after the calcination. On the other hand, the dealumination was not observed after calcination at <673 K. The 1H NMR indicated that the ca. 1/3 of the ion-exchange sites were blocked by the ammonium cations after calcination at 673 K, suggesting that the dealumination was prevented by the ammonium cations. On the basis of these findings, a standard set of conditions in which one can safely prepare the proton-form zeolite with high quality is proposed. The recommended temperature for the ion exchange is room temperature, because it is high enough to exchange the ions in this case. The most important variable is the calcination temperature; it should be lower than 673 K in order to avoid the dealumination. These conditions were confirmed to yield zeolites with a high framework aluminum content and ordinary catalytic performance.",

keywords = "Acidity, Catalyst preparation, Dealumination, Ion exchange, Mordenite, Reference catalyst, Standardization, Zeolite",

author = "Naonobu Katada and Tatsuya Takeguchi and Tatsuya Suzuki and Toshihisa Fukushima and Kinya Inagaki and Setsuo Tokunaga and Hiromichi Shimada and Koichi Sato and Yasunori Oumi and Tsuneji Sano and Kohichi Segawa and Kazuyuki Nakai and Hiroshi Shoji and Peng Wu and Takashi Tatsumi and Takayuki Komatsu and Takao Masuda and Kazunari Domen and Eisuke Yoda and Kondo, {Junko N.} and Toshio Okuhara and Takahide Kanai and Miki Niwa and Masaru Ogura and Masahiko Matsukata and Eiichi Kikuchi and Noriyasu Okazaki and Motoi Takahashi and Akio Tada and Shogo Tawada and Yoshihiro Kubota and Yoshihiro Sugi and Yasuhiko Higashio and Masahiko Kamada and Yukiyo Kioka and Kohei Yamamoto and Takayuki Shouji and Shigeo Satokawa and Yusaku Arima and Yasuaki Okamoto and Hideyuki Matsumoto",

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AU - Katada, Naonobu

AU - Takeguchi, Tatsuya

AU - Suzuki, Tatsuya

AU - Fukushima, Toshihisa

AU - Inagaki, Kinya

AU - Tokunaga, Setsuo

AU - Shimada, Hiromichi

AU - Sato, Koichi

AU - Oumi, Yasunori

AU - Sano, Tsuneji

AU - Segawa, Kohichi

AU - Nakai, Kazuyuki

AU - Shoji, Hiroshi

AU - Wu, Peng

AU - Tatsumi, Takashi

AU - Komatsu, Takayuki

AU - Masuda, Takao

AU - Domen, Kazunari

AU - Yoda, Eisuke

AU - Kondo, Junko N.

AU - Okuhara, Toshio

AU - Kanai, Takahide

AU - Niwa, Miki

AU - Ogura, Masaru

AU - Matsukata, Masahiko

AU - Kikuchi, Eiichi

AU - Okazaki, Noriyasu

AU - Takahashi, Motoi

AU - Tada, Akio

AU - Tawada, Shogo

AU - Kubota, Yoshihiro

AU - Sugi, Yoshihiro

AU - Higashio, Yasuhiko

AU - Kamada, Masahiko

AU - Kioka, Yukiyo

AU - Yamamoto, Kohei

AU - Shouji, Takayuki

AU - Satokawa, Shigeo

AU - Arima, Yusaku

AU - Okamoto, Yasuaki

AU - Matsumoto, Hideyuki

PY - 2005/4/8

Y1 - 2005/4/8

N2 - The undesired structural change of mordenite with Si/Al2 = 15 during the ion exchange and during calcination from the sodium form into proton form, especially the dealumination after the calcination, was studied. The 29Si NMR results clarified that calcination of the NH4-form mordenite with Si/Al2 = 15 at >ca. 800 K, followed by the contact of proton-form sample with the atmosphere containing humidity, induced the dealumination. However, the samples carefully kept free from humidity after the heat treatment showed no dealumination or only a low degree of it. The 27Al NMR and ammonia TPD results agreed with these findings. The origin of dealumination is thus considered to be the contact of the proton-form sample with humidity after the calcination. On the other hand, the dealumination was not observed after calcination at <673 K. The 1H NMR indicated that the ca. 1/3 of the ion-exchange sites were blocked by the ammonium cations after calcination at 673 K, suggesting that the dealumination was prevented by the ammonium cations. On the basis of these findings, a standard set of conditions in which one can safely prepare the proton-form zeolite with high quality is proposed. The recommended temperature for the ion exchange is room temperature, because it is high enough to exchange the ions in this case. The most important variable is the calcination temperature; it should be lower than 673 K in order to avoid the dealumination. These conditions were confirmed to yield zeolites with a high framework aluminum content and ordinary catalytic performance.

AB - The undesired structural change of mordenite with Si/Al2 = 15 during the ion exchange and during calcination from the sodium form into proton form, especially the dealumination after the calcination, was studied. The 29Si NMR results clarified that calcination of the NH4-form mordenite with Si/Al2 = 15 at >ca. 800 K, followed by the contact of proton-form sample with the atmosphere containing humidity, induced the dealumination. However, the samples carefully kept free from humidity after the heat treatment showed no dealumination or only a low degree of it. The 27Al NMR and ammonia TPD results agreed with these findings. The origin of dealumination is thus considered to be the contact of the proton-form sample with humidity after the calcination. On the other hand, the dealumination was not observed after calcination at <673 K. The 1H NMR indicated that the ca. 1/3 of the ion-exchange sites were blocked by the ammonium cations after calcination at 673 K, suggesting that the dealumination was prevented by the ammonium cations. On the basis of these findings, a standard set of conditions in which one can safely prepare the proton-form zeolite with high quality is proposed. The recommended temperature for the ion exchange is room temperature, because it is high enough to exchange the ions in this case. The most important variable is the calcination temperature; it should be lower than 673 K in order to avoid the dealumination. These conditions were confirmed to yield zeolites with a high framework aluminum content and ordinary catalytic performance.

KW - Acidity

KW - Catalyst preparation

KW - Dealumination

KW - Ion exchange

KW - Mordenite

KW - Reference catalyst

KW - Standardization

KW - Zeolite

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Standardization of catalyst preparation using reference catalyst: Ion exchange of mordenite type zeolite, Origin of dealumination and recommended standard conditions

Abstract

Keywords

ASJC Scopus subject areas

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