Institution
Nagoya Institute of Technology
Education•Nagoya, Japan•
About: Nagoya Institute of Technology is a education organization based out in Nagoya, Japan. It is known for research contribution in the topics: Thin film & Turbulence. The organization has 10766 authors who have published 19140 publications receiving 255696 citations. The organization is also known as: Nagoya Kōgyō Daigaku & Nitech.
Papers published on a yearly basis
Papers
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TL;DR: The first chiral Lewis acid catalyzed enantioselective Friedel-Crafts alkylation of pyrroles with beta-CF(3) acrylates with optically active trifluorinated heliotridane was successfully constructed.
76 citations
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TL;DR: The copper-catalyzed trifluoromethylthiolation of pyrroles with a trif fluoromethanesulfonyl hypervalent iodonium ylide under mild conditions has been achieved and a broad set of p Pyrroles could be transformed to the corresponding products in moderate to excellent yields.
76 citations
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TL;DR: In this paper, thin films of carbon were deposited on single crystal silicon and quartz substrates by simple ion beam sputtering of camphoric carbon target, obtained from camphor: a natural source, at room temperature.
76 citations
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TL;DR: In this article, the microwave dielectrics have been used for energy and natural resources conservation, waste disposal techniques, and reduction of global warming gases, and new frontiers of microwave Dielectrics are presented in relation with these energy issues.
76 citations
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TL;DR: In this article, a shadowgraph optical observation was performed to observe the entry process of a high-speed projectile and the formation and collapse of the cavity behind the projectile, and a number of interesting observations relating to the motion of free surface, the splash, the underwater bubbly flow and so on were found.
Abstract: When a high-speed projectile penetrates into water, a cavity is formed behind the projectile. The gas enclosed in the cavity experiences a nonequilibrium process, i.e., the gas pressure decreases as the projectile moves more deeply into water. As a result, the cavity is sealed near the free surface (surface closure) and subsequently the cavity breaks up in water (deep closure). Accompanying the break-up of the cavity, secondary shock waves appear. This is the so-called supercavitation in water entry. We describe an experimental investigation into the water entry phenomenon. Projectiles of 342 m/s were generated from a small-bore rifle that was fixed vertically in the experimental facility. The projectiles were fired into a windowed water tank. A shadowgraph optical observation was performed to observe the entry process of the projectile and the formation and collapse of the cavity behind the projectile. A number of interesting observations relating to the motion of the free surface, the splash, the underwater bubbly flow and so on were found
76 citations
Authors
Showing all 10804 results
Name | H-index | Papers | Citations |
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Luis M. Liz-Marzán | 132 | 616 | 61684 |
Hideo Hosono | 128 | 1549 | 100279 |
Shunichi Fukuzumi | 111 | 1256 | 52764 |
Andrzej Cichocki | 97 | 952 | 41471 |
Kwok-Hung Chan | 91 | 406 | 44315 |
Kimoon Kim | 90 | 412 | 35394 |
Alex Martin | 88 | 406 | 36063 |
Manijeh Razeghi | 82 | 1040 | 25574 |
Yuichi Ikuhara | 75 | 974 | 24224 |
Richard J. Cogdell | 73 | 480 | 23866 |
Masaaki Tanaka | 71 | 860 | 22443 |
Kiyotomi Kaneda | 65 | 378 | 13337 |
Yulin Deng | 64 | 641 | 16148 |
Motoo Shiro | 64 | 720 | 17786 |
Norio Shibata | 63 | 574 | 14469 |