S
Shougo Higashi
Researcher at Toyota
Publications - 32
Citations - 1315
Shougo Higashi is an academic researcher from Toyota. The author has contributed to research in topics: Adsorption & Electrolyte. The author has an hindex of 11, co-authored 29 publications receiving 889 citations. Previous affiliations of Shougo Higashi include Kyushu University & Stanford University.
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Avoiding short circuits from zinc metal dendrites in anode by backside-plating configuration.
TL;DR: A backside-plating configuration is shown that enables long-term cycling of zinc metal batteries without shorting and can be applied to not only zinc metal systems but also other metal-based electrodes suffering from internal short circuits.
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Towards dense single-atom catalysts for future automotive applications
Atsushi Beniya,Shougo Higashi +1 more
TL;DR: In this paper, the development of state-of-the-art catalysts for CO oxidation and consider the important achievements in the design of good catalysts via a detailed scrutiny of CO oxidation pathways for single-atom and few-atom cluster catalysis.
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A novel inorganic solid state ion conductor for rechargeable Mg batteries.
TL;DR: The conduction of the bivalent magnesium cation in an inorganic solid state material, Mg(BH4)(NH2), has been demonstrated and its electrochemical window was estimated to be approximately 3 V using cyclic voltammetry.
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Enhanced Efficiency of Cd-Free Cu(In,Ga)(Se,S)2 Minimodule Via (Zn,Mg)O Second Buffer Layer and Alkali Metal Post-Treatment
Takuya Kato,Atsushi Handa,Takeshi Yagioka,Tetsuya Matsuura,Kentarou Yamamoto,Shougo Higashi,Jyh-Lih Wu,Kong Fai Tai,Homare Hiroi,Takashi Yoshiyama,Tetsuya Sakai,Hiroki Sugimoto +11 more
TL;DR: In this article, the atomic layer deposited (Zn,Mg)O second buffer layer and K treatment of the absorber surface were applied to the submodule and both techniques were implemented into the minimodule.
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Composites of a Prussian Blue Analogue and Gelatin-Derived Nitrogen-Doped Carbon-Supported Porous Spinel Oxides as Electrocatalysts for a Zn–Air Battery
Jang-Soo Lee,Jang-Soo Lee,Gyutae Nam,Jie Sun,Shougo Higashi,Hyun-Wook Lee,Hyun-Wook Lee,Sanghan Lee,Sanghan Lee,Wei Chen,Yi Cui,Jaephil Cho +11 more
TL;DR: In this article, a facile and scalable method is developed for fabricating metal-air batteries based on the fact that the Prussian blue analogue Mn3[Co(CN)6]2•nH2O and gelatin-coated Ketjenblack carbon thermally decompose at 400 °C in air (i.e., without requiring high-temperature pyrolysis under inert conditions) to form porous spinel oxides and N-doped carbon materials.