Institution
Chiba Institute of Technology
Education•Narashino, Japan•
About: Chiba Institute of Technology is a education organization based out in Narashino, Japan. It is known for research contribution in the topics: RNA & Magnet. The organization has 2663 authors who have published 4999 publications receiving 56870 citations. The organization is also known as: Chiba kōgyō daigaku & Kōa Institute of Technology.
Topics: RNA, Magnet, Robot, Coercivity, Finite element method
Papers published on a yearly basis
Papers
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TL;DR: In this article, a numerical framework which jointly uses discrete element method, kinetic Monte Carlo method and lattice Boltzmann method is proposed to predict the electrochemical performance of solid oxide fuel cell cathode from raw powder.
38 citations
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TL;DR: In this paper, the authors present seismic tomography and geochemical evidence for the existence of significant lateral heterogeneities in the lunar mantle and make a comparison with the Earth's heterogeneity and seismicity.
38 citations
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TL;DR: In this paper, a novel system of electro-catalysts was developed for methanol oxidation reaction (MOR) in direct methanoline fuel cells, where a mixture of platinum tetraammine complex with cobalt quinolyldiamine complex with various mixing ratio was supported on graphite powder, and heat treated at 400-1000°C in argon atmosphere.
38 citations
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TL;DR: In this paper, the formation conditions exerted an influence over the molecular aggregation and the crystallization behaviors of the blend films and block copolymers which were examined by X-ray diffractometry and DSC analysis.
Abstract: Polymer blends of PEEK with PES were prepared by the solution blending method. Copolymers composed of PEEK and PES components were synthesized from these oligomers. The formation conditions exerted an influence over the molecular aggregation and the crystallization behaviors of the blend films and block copolymers which were examined by X-ray diffractometry and DSC analysis. As a result, phase-separation in the blend films was found when the formation temperature was high. The blend films formed at 340°C, quenched and annealed at 180°C, exhibited the same crystallization behavior as those of PEEK. In the case of the blend films formed at 300°C, the annealing of the films at 250°C was required to crystallize the blend films. The Tg of a copolymer with a PEEK component content of more than 50% tends to shift toward a higher temperature than the Tg of PEEK itself, and the Tm of the copolymer toward a lower temperature than that of PEEK ist.
Rontgendiffraktometrische Untersuchungen und DSC-Messungen an Blend-Filmen, die aus Losungen von PEEK und PES hergestellt wurden, zeigen eine Phasenseparation bei den Filmen, die bei 340°C hergestellt wurden. Das Kristallisationsverhalten von Filmen, die bei 340°C hergestellt, anschliesend abgeschreckt und bei 180°C getempert wurden, ist identisch mit dem von PEEK. Filme, die bei 300°C hergestellt wurden, kristallisierten erst durch Tempern bei 250°C. Blockcopolymere, die aus Oligomeren von PEEK und PES erhalten wurden, unterscheiden sich in dieser Hinsicht von Blends der gleichen Zusammensetzung. Die Glastemperatur von Copolymeren mit einem PEEK-Gehalt von mehr als 50% liegt hoher als die von PEEK selbst, wahrend der Schmelzpunkt dieser Copolymeren niedriger als der von PEEK ist.
38 citations
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TL;DR: In this article, a template route method using carbon aerogels of different mesoporosities was used to synthesize well-crystalline ZSM-5 and zeolite Y having uniform mesopores.
38 citations
Authors
Showing all 2681 results
Name | H-index | Papers | Citations |
---|---|---|---|
Shigeyuki Yokoyama | 107 | 1113 | 49711 |
Hiroyuki Shimada | 88 | 881 | 30180 |
Naoki Yamamoto | 74 | 492 | 22987 |
Kazuhito Tsukagoshi | 62 | 409 | 13609 |
Kunitada Shimotohno | 55 | 161 | 12006 |
Sahin Kaya Ozdemir | 54 | 267 | 15042 |
Hiroshi Kimura | 54 | 308 | 11407 |
Takahiro Hiroi | 47 | 256 | 7107 |
Ryuji Tada | 45 | 195 | 6524 |
Takashi Kumasaka | 42 | 166 | 12036 |
Ichiro Hirao | 41 | 244 | 5811 |
Harald Krüger | 39 | 162 | 4830 |
Goro Komatsu | 38 | 215 | 5089 |
Kin-ichiro Miura | 38 | 220 | 7730 |
Keiji Nagatani | 37 | 220 | 5274 |