Naotsugu Itoh scite author profile

Existing phenol production processes tend to be energy-consuming and produce unwanted by-products. We report an efficient process using a shell-and-tube reactor, in which a gaseous mixture of benzene and oxygen is fed into a porous alumina tube coated with a palladium thin layer and hydrogen is fed into the shell. Hydrogen dissociated on the palladium layer surface permeates onto the back and reacts with oxygen to give active oxygen species, which attack benzene to produce phenol. This one-step process attained phenol formation selectivities of 80 to 97% at benzene conversions of 2 to 16% below 250 degrees C (phenol yield: 1.5 kilograms per kilogram of catalyst per hour at 150 degrees C).

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All electron scalar relativistic calculations on adsorption of CO on Pt(111) with full-geometry optimization: a correct estimation for CO site-preference

Orita

Itoh

Inada³

2004

Chemical Physics Letters

106

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A membrane reactor using palladium

Itoh

1987

AIChE Journal

315

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An amorphous alloy membrane without noble metals for gaseous hydrogen separation

Hara

Sakaki

Itoh

et al. 2000

Journal of Membrane Science

147

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Development of tubular substrates, silica based membranes and membrane modules for hydrogen separation at high temperature

Yoshino

Suzuki

Nair

et al. 2005

Journal of Membrane Science

151

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Naotsugu Itoh

A One-Step Conversion of Benzene to Phenol with a Palladium Membrane

All electron scalar relativistic calculations on adsorption of CO on Pt(111) with full-geometry optimization: a correct estimation for CO site-preference

A membrane reactor using palladium

An amorphous alloy membrane without noble metals for gaseous hydrogen separation

Development of tubular substrates, silica based membranes and membrane modules for hydrogen separation at high temperature

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