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Research on a wideband and high gain antenna element for an array antenna
Hirotaka Hayashi,Kazuhiro Ueda,Toshio Asai,Akiomi Sato 제어로봇시스템학회 2009 제어로봇시스템학회 국제학술대회 논문집 Vol.2009 No.8
In this paper, we propose the new bow-tie antenna design method, which realizes the wideband and high gain antenna element for the shared aperture antenna on airborne radar. In order to improve the common bow-tie antenna characteristics, we propose four improvement approaches. The details of improvement approaches are presented. We built the prototype array antenna composed of 64 elements designed, and demonstrated that it had significantimprovement on the antenna element gain over 6 to 18 GHz.
Mechanistic Investigation of Water Oxidation Catalyzed by Uniform, Assembled MnO Nanoparticles
Jin, Kyoungsuk,Seo, Hongmin,Hayashi, Toru,Balamurugan, Mani,Jeong, Donghyuk,Go, Yoo Kyung,Hong, Jung Sug,Cho, Kang Hee,Kakizaki, Hirotaka,Bonnet-Mercier, Nadè,ge,Kim, Min Gyu,Kim, Sun Hee,Nakamu American Chemical Society 2017 JOURNAL OF THE AMERICAN CHEMICAL SOCIETY - Vol.139 No.6
<P>The development of active water oxidation catalysts is critical to achieve high efficiency in overall water splitting. Recently, sub 10 nm-sized monodispersed partially oxidized manganese oxide nanoparticles were shown to exhibit not only superior catalytic performance for oxygen evolution, but also unique electrokinetics, as compared to their bulk counterparts. In the present work, the water oxidizing mechanism of partially oxidized MnO nanoparticles was investigated using integrated in situ spectroscopic and electrokinetic analyses. We successfully demonstrated that, in contrast to previously reported manganese (Mn)-based catalysts, Mn(III) species are stably generated on the, surface of MnO nanoparticles via a proton-coupled electron transfer pathway. Furthermore, we confirmed as to MnO nanoparticles that the one-electron oxidation step from Mn(II) to Mn(III) is no longer the rate-determining step for water oxidation and that Mn(W)=O species are generated as reaction intermediates during catalysis.</P>