M
Motonobu Goto
Researcher at Nagoya University
Publications - 516
Citations - 13485
Motonobu Goto is an academic researcher from Nagoya University. The author has contributed to research in topics: Supercritical fluid & Extraction (chemistry). The author has an hindex of 56, co-authored 490 publications receiving 11624 citations. Previous affiliations of Motonobu Goto include Kagome & Meidensha.
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Non-catalytic vanadium removal from vanadyl etioporphyrin (VO-EP) using a mixed solvent of supercritical water and toluene: A kinetic study
TL;DR: In this article, a mixed solvent of supercritical water (SCW) and toluene without the addition of any catalyst, H 2 or H 2 S, was used to remove vanadium from vanadyl etioporphyrin (VO-EP).
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Esterification of high free fatty acids in supercritical methanol using sulfated angel wing shells as catalyst
TL;DR: In this article, the shells of Cyrtopleura costata, commonly known as angel wing, were used to prepare sulfated calcined angel wing shell (CAWS) catalysts by a simple, low-cost method.
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Formation of PVP hollow fibers by electrospinning in one-step process at sub and supercritical CO2
TL;DR: In this paper, hollow fibers with walls made of organic polymer composites have been formed by electrospinning in a single processing step under pressurized carbon dioxide (CO2) under high and low pressures.
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Approximate rate equation for intraparticle diffusion with or without reaction
Motonobu Goto,Tsutomu Hirose +1 more
TL;DR: In this paper, a new approximate model describing both diffusion and diffusion-reaction process has been developed, derived from an empirical combination of the parabolic profile model and a modified parabolic model where the averaging was carried out over the positive region of the profile.
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Heterogeneous continuous kinetics modeling of PET depolymerization in supercritical methanol
TL;DR: In this article, a continuous kinetics model was developed to analyze PET decomposition behavior in supercritical methanol, which includes molecular weight distribution (MWD) changes in the polymer by random and specific scissions and secondary reactions of monomer components for complex macromolecular reactions.