Toshiharu Inaba scite author profile

Toshiharu Inaba

5Publications

37Citation Statements Received

0Citation Statements Given

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110

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Affiliations

National Maritime Research Institute, Mitsui Engineering and Shipbuilding (Japan), Nagoya City University

Publications

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Ethanol production from starch in a pervaporation membrane bioreactor using Clostridium thermohydrosulfuricum

Mori

Inaba

1990

Biotech & Bioengineering

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To attain both high productivity and efficient recovery of ethanol from broth, a membrane bioreactor consisting of a jar fermentor and a pervaporation system was applied to the direct production of ethanol from uncooked starch with a thermophilic anaerobic bacterium, Clostridium thermohydrosulfuricum. From four types of ethanol-selective membranes tested, microporous polytetrafluoroethylene (PTFE) membrane, the pores of which are impregnated with silicone rubber, was chosen for its large flux, high ethanol selectivity, and high stability. During fed-batch fermentation with pervaporation in the membrane bioreactor, ethanol was continuously extracted and concentrated in two traps with concentrations at 5.6%-6.2% (w/w) in trap 1 (20 degrees C) and 27%-32% (w/w) in trap 2 (liquid N(2)), while the ethanol concentration in the broth was maintained at 0.85-0.9% (w/w). Due to the low ethanol concentration in the broth, and the immobilization of bacterial cells by the membrane, the number of viable cells, and, eventually, the ethanol productivity, increased in the membrane bioreactor.

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Studies of Relationships between Elastic Modulus and Damping Performance in Piezoelectric Damping Composites.

Inaba¹,

Kidoguchi²,

Ito³

et al. 1994

Nihon Gomu Kyoukaishi

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A new makeup remover prepared with a system comprising dual continuous channels (bicontinuous phase) of silicone oil and water

Watanabe

Masuda

Nakamura

et al. 2005

Intern J of Cosmetic Sci

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Removing makeup is considered to be the first step in the skincare process. Makeup that has served its purpose is a kind of impurity that should ideally be removed completely to maximize the effects of skincare products applied afterwards. However, the use of silicone resins has significantly improved the long‐lasting property of makeup with the result that makeup can hardly be removed efficiently either with surfactant‐type cleansers like soaps or with oil‐based cleansers like liquid crystalline cleansers. Furthermore, oil‐based makeup removers do not leave the skin feeling fresh but oily, and often have been used in combination with surfactant‐type cleansers. In other words, complete makeup removal and a fresh skin feel are considered to be incompatible in conventional formulation technologies. To obtain compatible systems, we investigated the applicability of a system known as the bicontinuous phase and eventually succeeded in developing a novel system for a makeup remover. This phase can be prepared with a specific composition with a complete hydrophilic‐lipophilic balance in an oil/surfactant/water system by using cyclo‐siloxane, which dissolves silicone resin well. The bicontinuous phase has an oil‐ and water‐continuous microstructure, showing affinity for both aqueous and oily substances. This bicontinuous phase was applied to the development of a novel makeup remover. Determination of remover cap‐ability and fresh skin feel revealed that the makeup could be completely removed and that the amount of oil remaining on skin surface after wash‐off was much less than with previous oil‐based removers. The results of the sensory test also supported the finding that the remover was far superior to conventional products. This makeup remover is the first example of the application of the bicontinuous phase technology to a cosmetic product and clearly seems to provide the best conditions for subsequent skin care, meaning that it is suitable for the first step in the skincare process.

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Radical methylation and radical hydroxymethylation of nicotine and quinine.

Itokawa¹,

Inaba²,

Haruta³

et al. 1978

CHEMICAL & PHARMACEUTICAL BULLETIN

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Radical methylation and radical hydroxymethylation of N-substituted quinoline derivatives.

Itokawa

Kameyama

Inaba

et al. 1978

CHEMICAL & PHARMACEUTICAL BULLETIN

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Toshiharu Inaba

Ethanol production from starch in a pervaporation membrane bioreactor using Clostridium thermohydrosulfuricum

Studies of Relationships between Elastic Modulus and Damping Performance in Piezoelectric Damping Composites.

A new makeup remover prepared with a system comprising dual continuous channels (bicontinuous phase) of silicone oil and water

Radical methylation and radical hydroxymethylation of nicotine and quinine.

Radical methylation and radical hydroxymethylation of N-substituted quinoline derivatives.

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