The Experts below are selected from a list of 102 Experts worldwide ranked by ideXlab platform
Masakuni Yoshihara - One of the best experts on this subject based on the ideXlab platform.
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Synthesis and Electronic Behavior of a Net-Worked Scandium–Phenylene–Yttrium Ternary Hybrid Copolymer
Polymer Journal, 2005Co-Authors: Hideo Matsui, Tetsuro Kawahara, Masaru Mishima, Masakuni YoshiharaAbstract:A ternary, scandium–phenylene–Yttrium hybrid copolymer was synthesized by initially reacting 1,4-hydroquinone with scandium isopropoxide below −45 °C followed by a second reaction with Yttrium isopropoxide at room temperature. ESR spectral examinations and ab-initio calculations indicate that an electron transfer takes place initially from the phenylene group to the Yttrium Atom at a lower energy-level and then to the scandium Atom at a higher energy-level, i.e. via two-step electron transportation.
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Synthesis and Electronic Behavior of a Net-Worked Scandium-Phenylene-Yttrium Ternary Hybrid Copolymer
Polymer Journal, 2005Co-Authors: Hideo Matsui, Tetsuro Kawahara, Masaru Mishima, Masakuni YoshiharaAbstract:A ternary, scandium–phenylene–Yttrium hybrid copolymer was synthesized by initially reacting 1,4-hydroquinone with scandium isopropoxide below −45 °C followed by a second reaction with Yttrium isopropoxide at room temperature. ESR spectral examinations and ab-initio calculations indicate that an electron transfer takes place initially from the phenylene group to the Yttrium Atom at a lower energy-level and then to the scandium Atom at a higher energy-level, i.e. via two-step electron transportation.
Hideo Matsui - One of the best experts on this subject based on the ideXlab platform.
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Synthesis and Electronic Behavior of a Net-Worked Scandium–Phenylene–Yttrium Ternary Hybrid Copolymer
Polymer Journal, 2005Co-Authors: Hideo Matsui, Tetsuro Kawahara, Masaru Mishima, Masakuni YoshiharaAbstract:A ternary, scandium–phenylene–Yttrium hybrid copolymer was synthesized by initially reacting 1,4-hydroquinone with scandium isopropoxide below −45 °C followed by a second reaction with Yttrium isopropoxide at room temperature. ESR spectral examinations and ab-initio calculations indicate that an electron transfer takes place initially from the phenylene group to the Yttrium Atom at a lower energy-level and then to the scandium Atom at a higher energy-level, i.e. via two-step electron transportation.
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Synthesis and Electronic Behavior of a Net-Worked Scandium-Phenylene-Yttrium Ternary Hybrid Copolymer
Polymer Journal, 2005Co-Authors: Hideo Matsui, Tetsuro Kawahara, Masaru Mishima, Masakuni YoshiharaAbstract:A ternary, scandium–phenylene–Yttrium hybrid copolymer was synthesized by initially reacting 1,4-hydroquinone with scandium isopropoxide below −45 °C followed by a second reaction with Yttrium isopropoxide at room temperature. ESR spectral examinations and ab-initio calculations indicate that an electron transfer takes place initially from the phenylene group to the Yttrium Atom at a lower energy-level and then to the scandium Atom at a higher energy-level, i.e. via two-step electron transportation.
Tetsuro Kawahara - One of the best experts on this subject based on the ideXlab platform.
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Synthesis and Electronic Behavior of a Net-Worked Scandium–Phenylene–Yttrium Ternary Hybrid Copolymer
Polymer Journal, 2005Co-Authors: Hideo Matsui, Tetsuro Kawahara, Masaru Mishima, Masakuni YoshiharaAbstract:A ternary, scandium–phenylene–Yttrium hybrid copolymer was synthesized by initially reacting 1,4-hydroquinone with scandium isopropoxide below −45 °C followed by a second reaction with Yttrium isopropoxide at room temperature. ESR spectral examinations and ab-initio calculations indicate that an electron transfer takes place initially from the phenylene group to the Yttrium Atom at a lower energy-level and then to the scandium Atom at a higher energy-level, i.e. via two-step electron transportation.
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Synthesis and Electronic Behavior of a Net-Worked Scandium-Phenylene-Yttrium Ternary Hybrid Copolymer
Polymer Journal, 2005Co-Authors: Hideo Matsui, Tetsuro Kawahara, Masaru Mishima, Masakuni YoshiharaAbstract:A ternary, scandium–phenylene–Yttrium hybrid copolymer was synthesized by initially reacting 1,4-hydroquinone with scandium isopropoxide below −45 °C followed by a second reaction with Yttrium isopropoxide at room temperature. ESR spectral examinations and ab-initio calculations indicate that an electron transfer takes place initially from the phenylene group to the Yttrium Atom at a lower energy-level and then to the scandium Atom at a higher energy-level, i.e. via two-step electron transportation.
Masaru Mishima - One of the best experts on this subject based on the ideXlab platform.
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Synthesis and Electronic Behavior of a Net-Worked Scandium–Phenylene–Yttrium Ternary Hybrid Copolymer
Polymer Journal, 2005Co-Authors: Hideo Matsui, Tetsuro Kawahara, Masaru Mishima, Masakuni YoshiharaAbstract:A ternary, scandium–phenylene–Yttrium hybrid copolymer was synthesized by initially reacting 1,4-hydroquinone with scandium isopropoxide below −45 °C followed by a second reaction with Yttrium isopropoxide at room temperature. ESR spectral examinations and ab-initio calculations indicate that an electron transfer takes place initially from the phenylene group to the Yttrium Atom at a lower energy-level and then to the scandium Atom at a higher energy-level, i.e. via two-step electron transportation.
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Synthesis and Electronic Behavior of a Net-Worked Scandium-Phenylene-Yttrium Ternary Hybrid Copolymer
Polymer Journal, 2005Co-Authors: Hideo Matsui, Tetsuro Kawahara, Masaru Mishima, Masakuni YoshiharaAbstract:A ternary, scandium–phenylene–Yttrium hybrid copolymer was synthesized by initially reacting 1,4-hydroquinone with scandium isopropoxide below −45 °C followed by a second reaction with Yttrium isopropoxide at room temperature. ESR spectral examinations and ab-initio calculations indicate that an electron transfer takes place initially from the phenylene group to the Yttrium Atom at a lower energy-level and then to the scandium Atom at a higher energy-level, i.e. via two-step electron transportation.
Shigeru Nagase - One of the best experts on this subject based on the ideXlab platform.
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location of the Yttrium Atom in y c82 and its influence on the reactivity of cage carbons
Journal of the American Chemical Society, 2009Co-Authors: Xing Lu, Hidefumi Nikawa, Lai Feng, Takahiro Tsuchiya, Yutaka Maeda, Takeshi Akasaka, Naomi Mizorogi, Zdenek Slanina, Shigeru NagaseAbstract:The first single-crystallographic results of Y@C82 unambiguously disclosed that the Yttrium Atom is located under a hexagonal ring along the C2 axis, which makes only 1 out of 24 nonequivalent carbons of the C2v-C82 sufficiently reactive toward the electrophile adamantylidene carbene, affording only two monoadduct isomers.
