D
Dhruba Panthi
Researcher at Kent State University
Publications - 30
Citations - 422
Dhruba Panthi is an academic researcher from Kent State University. The author has contributed to research in topics: Anode & Solid oxide fuel cell. The author has an hindex of 11, co-authored 26 publications receiving 290 citations. Previous affiliations of Dhruba Panthi include Vaughn College of Aeronautics and Technology & University of Tokyo.
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Densification behavior of yttria-stabilized zirconia powders for solid oxide fuel cell electrolytes
TL;DR: In this article, the densification behavior of three different kinds of commercial 8 mol% YSZ powders: (i) TZ-8Y (Tosoh, Japan), (ii) MELox 8Y (MEL Chemicals, UK), and (iii) YS-HT (Huatsing Power, China) was compared on both self-supporting pellets and thin-film electrolytes coated onto a NiO-YSZ anode support.
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Micro-tubular solid oxide fuel cell based on a porous yttria-stabilized zirconia support
Dhruba Panthi,Atsushi Tsutsumi +1 more
TL;DR: The developed micro-tubular SOFC design showed a promising electrochemical performance with maximum power densities of 525, 442, and 354 mW cm−2 at 850, 800, and 750°C, respectively.
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Electron doping of Sr2FeMoO6−δ as high performance anode materials for solid oxide fuel cells
Xin Yang,Xin Yang,Xin Yang,Jing Chen,Dhruba Panthi,Bingbing Niu,Libin Lei,Zhihao Yuan,Yanhai Du,Yongfeng Li,Fanglin Chen,Tianmin He +11 more
TL;DR: In this paper, the La3+-doped double perovskites were used as anode materials for solid oxide fuel cells, and a crystalline symmetry transition of SLFM from tetragonal to orthorhombic with the increase of La content was revealed.
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Freeze-casting for the fabrication of solid oxide fuel cells: A review
TL;DR: Freeze-casting, also called ice-templating, is a promising method to produce hierarchically porous ceramics with aligned and directional pores as discussed by the authors. But this method offers strict control over the pore sizes, the percentage of porosity and morphology evolution.
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A novel water-splitting electrochemical cycle for hydrogen production using an intermediate electrode
Bokkyu Choi,Dhruba Panthi,Masateru Nakoji,Toshiki Kabutomori,Kaduo Tsutsumi,Atsushi Tsutsumi +5 more
TL;DR: In this article, a multi-step water electrolysis system with an intermediate electrode was proposed, which can achieve a high energy conversion efficiency during hydrogen production by reducing the ohmic overpotential between the electrodes through use of a thinner separator.