His Nanotechnology research is linked to Nanosheet, Layer (electronics) and Transmission electron microscopy, among other subjects. His study brings together the fields of Chemical engineering and Nanosheet. As part of his studies on Chemical engineering, he often connects relevant subjects like Exfoliation joint. His Organic chemistry research extends to the thematically linked field of Layer (electronics). His Organic chemistry study frequently intersects with other fields, such as Ion exchange. In his research, Kazunori Takada undertakes multidisciplinary study on Transmission electron microscopy and Nanotechnology. As part of his inquiry into Ionic bonding and Ion exchange, he is doing Ion research. His Metallurgy research is intertwined with Oxide and Crystallite. He undertakes interdisciplinary study in the fields of Oxide and Ion through his works.
Kazunori Takada combines Organic chemistry and Catalysis in his research. Kazunori Takada undertakes multidisciplinary studies into Catalysis and Organic chemistry in his work. Kazunori Takada regularly links together related areas like Fast ion conductor in his Physical chemistry studies. Kazunori Takada merges Fast ion conductor with Electrolyte in his research. In his works, he conducts interdisciplinary research on Electrolyte and Ion. He integrates several fields in his works, including Ion and Inorganic chemistry. Kazunori Takada undertakes multidisciplinary investigations into Inorganic chemistry and Physical chemistry in his work. His work on Nanosheet expands to the thematically related Chemical engineering. His study in Chemical engineering extends to Nanosheet with its themes.
Kazunori Takada incorporates Electrode and Electrochemistry in his studies. Kazunori Takada integrates Electrochemistry with Electrolyte in his research. Kazunori Takada integrates Electrolyte with Fast ion conductor in his study. His study ties his expertise on Electrode together with the subject of Fast ion conductor. His research on Physical chemistry often connects related topics like Solid-state. His Solid-state study frequently draws connections between related disciplines such as Engineering physics. He applies his multidisciplinary studies on Engineering physics and Chemical engineering in his research. He performs integrative Chemical engineering and Physical chemistry research in his work. Organic chemistry and Phase (matter) are frequently intertwined in his study.
Nanotechnology is closely attributed to Thin film in his study. Many of his studies on Thin film apply to Nanotechnology as well. His research on Solid-state often connects related topics like Engineering physics. His Solid-state research extends to the thematically linked field of Engineering physics. Physical chemistry is closely attributed to Electrolyte in his work. In his works, he performs multidisciplinary study on Electrolyte and Fast ion conductor. His Physical chemistry research extends to Fast ion conductor, which is thematically connected. His Electrode study frequently draws connections between related disciplines such as Lithium metal. His research ties Electrode and Lithium metal together.
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Tetrahedral Co(II) Coordination in α-Type Cobalt Hydroxide: Rietveld Refinement and X-ray Absorption Spectroscopy
Renzhi Ma;Zhaoping Liu;Kazunori Takada;Katsutoshi Fukuda.
Inorganic Chemistry (2006)
Photocurrent generation from semiconducting manganese oxide nanosheets in response to visible light.
Nobuyuki Sakai;Yasuo Ebina;Kazunori Takada;Takayoshi Sasaki.
Journal of Physical Chemistry B (2005)
Topochemical synthesis of Co-Fe layered double hydroxides at varied Fe/Co ratios: unique intercalation of triiodide and its profound effect.
Renzhi Ma;Jianbo Liang;Kazunori Takada;Takayoshi Sasaki.
Journal of the American Chemical Society (2011)
Synthesis and Delamination of Layered Manganese Oxide Nanobelts
Zhaoping Liu;Renzhi Ma;Yasuo Ebina;Kazunori Takada.
Chemistry of Materials (2007)
Gigantic Magneto–Optical Effects in Multilayer Assemblies of Two‐Dimensional Titania Nanosheets
Minoru Osada;Yasuo Ebina;Kazunori Takada;Takayoshi Sasaki.
Advanced Materials (2006)
Exfoliated nanosheet crystallite of cesium tungstate with 2D pyrochlore structure: synthesis, characterization, and photochromic properties.
Katsutoshi Fukuda;Kosho Akatsuka;Kosho Akatsuka;Yasuo Ebina;Renzhi Ma.
ACS Nano (2008)
Synthesis of a Li−Mn-oxide with Disordered Layer Stacking through Flocculation of Exfoliated MnO2 Nanosheets, and Its Electrochemical Properties
Lianzhou Wang;Kazunori Takada;Akihisa Kajiyama;Mitsuko Onoda.
Chemistry of Materials (2003)
Transparent cubic garnet-type solid electrolyte of Al2O3-doped Li7La3Zr2O12
Yosuke Suzuki;Yosuke Suzuki;K. Kami;K. Watanabe;A. Watanabe.
Solid State Ionics (2015)
Hollow nanoshell of layered double hydroxide
Liang Li;Renzhi Ma;Nobuo Iyi;Yasuo Ebina.
Chemical Communications (2006)
High rate capabilities of all-solid-state lithium secondary batteries using Li4Ti5O12-coated LiNi0.8Co0.15Al0.05O2 and a sulfide-based solid electrolyte
Yoshikatsu Seino;Tsuyoshi Ota;Kazunori Takada.
Journal of Power Sources (2011)
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