Tomoyuki Narisawa scite author profile

Tomoyuki Narisawa

3Publications

13Citation Statements Received

23Citation Statements Given

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Affiliations

Saitama Prefectural Industrial Technology Center, The University of Tokyo, Tokyo University of the Arts

Publications

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H-type Zeolite-Catalyzed 1,4-Addition of Benzene Derivatives to Labile Acrolein

Hayashi

Narisawa

Masui

et al. 2016

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The 1,4-addition of benzene derivatives to acrolein is a straightforward way to synthesize 3-arylpropanals. A survey of acid catalysts for the 1,4-addition of methoxy-substituted benzenes to acrolein revealed that H-Beta and H-Y were the most suitable catalysts. We hypothesized three side-reactions: (1) the double 1,4-addition of acrolein to the starting benzene derivatives, (2) the FriedelCrafts-type alkylation to the desired product, and (3) the self-polymerization of acrolein. The type (3) side-reaction was inhibited by two different methods which kept the concentration of acrolein low in the reaction mixture or in the zeolite pores. First, acrolein monomers were in situ generated through the gradual monomerization of an acrolein cyclic trimer. Second, using a reaction solvent lowered the acrolein concentration in the zeolite pores due to the competitive adsorption. We discovered that the content of monomeric acrolein in a solvent was closely related to the polarity of the solvent. Actually, both methods improved the yields for the 1,4-additions of 1,3-dimethoxybenzene to acrolein. Other electronrich benzene derivatives, such as phenol and N,N-dimethylaniline, were also applicable to the 1,4-addition reactions.

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Cultivar differences in lipoxygenase activity affect volatile compound formation in dough from wheat mill stream flour

Narisawa

Nakajima

Umino

et al. 2019

Journal of Cereal Science

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Volatile Compounds from Japanese Noodles, “Udon,” and their Formation during Noodle-Making

Narisawa¹,

Nakajima²,

Umino³

et al. 2017

J Food Process Technol

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