Yuji Wada scite author profile

Multichannel microreactors for gas-liquid reactions are designed and fabricated using silicon and Pyrex wafers. We perform oxidation of organic reagents by ozone (ozonolysis) in these microreactors motivated by the difficulty of handling ozone, its high reactivity, the potentially high selectivity for oxygenated products, and the reaction often being mass transfer limited. Pressure drop zones are included in the microreactors to achieve a uniform gas-liquid flow regime across the multiple channels. Flow visualization experiments show less than 3% variation in mass flow across the channel for a range of operating conditions. Microfabricated silicon posts are included in the channels as a means to increase mass transfer, and their effectiveness is evaluated by comparing conversion and selectivity to those obtained for microreactors without posts. Oxidations with ozone of phosphite, amine, and olefin as model compounds serve as case studies. In all cases, both conversion and selectivity are high, up to 100% at short contact times as low as 1 s.

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Fabrication of stretchable MoS2 thin-film transistors using elastic ion-gel gate dielectrics

Zhang

Wada

et al. 2013

100

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We fabricated stretchable molybdenum disulfide thin-film transistors (MoS2 TFTs) on poly(dimethylsiloxane) substrates using ion gels as elastic gate dielectrics. The TFTs exhibited an electron mobility of 1.40 cm2/(V·s) and an on/off current ratio of 104 with a notably low threshold voltage (∼1 V). Furthermore, our MoS2 TFTs operated at a mechanical strain of 5% without significant degradation of their electrical properties. These results demonstrate the potential for using MoS2 films for stretchable electronics.

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Yuji Wada

Iridovirus Infection of Cultured Red Sea Bream, Pagrus major.

An Accurate and Robust Flux Splitting Scheme for Shock and Contact Discontinuities

A flux splitting scheme with high-resolution and robustness for discontinuities

Flow Distribution and Ozonolysis in Gas−Liquid Multichannel Microreactors

Fabrication of stretchable MoS2 thin-film transistors using elastic ion-gel gate dielectrics

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