Hideo Sekiya scite author profile

Hideo Sekiya

5Publications

108Citation Statements Received

109Citation Statements Given

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103

Affiliations

Waseda University, Toyobo (Japan), Japan Atomic Energy Agency

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Mechanism of Ketone and Alcohol Formations from Alkenes and Alkynes on the Head-to-head 2-Pyridonato-Bridged cis-Diammineplatinum(III) Dinuclear Complex

et al. 2003

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Reactions of the head-to-head 2-pyridonato-bridged cis-diammineplatinum(III) dinuclear complex having nonequivalent two platinum atoms, Pt(N(2)O(2)) and Pt(N(4)), with p-styrenesulfonate, 2-methyl-2-propene-1-sulfonate, 4-penten-1-ol, and 4-pentyn-1-ol were studied kinetically. Under the pseudo first-order reaction conditions that the concentration of the Pt(III) dinuclear complex is much smaller than that of olefin, a consecutive basically four-step reaction was observed: the olefin pi-coordinates preferentially to the Pt(N(2)O(2)) in the first step (step 1), followed by the second pi-coordination of another olefin molecule to the Pt(N(4)) (step 2). In the next step (step 3), the nucleophilic attack of water to the coordinated olefin triggers the pi-sigma bond conversion on the Pt(N(2)O(2)), and the second pi-bonding olefin molecule on the Pt(N(4)) is released. Finally, reductive elimination occurs to the alkyl group on the Pt(N(2)O(2)) to produce the alkyl compound (step 4). The first water substitution with olefin (step 1) occurs to the diaqua and aquahydroxo forms of the complex, whereas the second substitution (step 2) proceeds either on the coordinated OH(-) on the Pt(N(4)) (path a) or on the coordinatively unsaturated five-coordinate intermediate of the Pt(N(4)) (path b), in addition to the common substitution of H(2)O (path c). The reactions of p-styrenesulfonate and 2-methyl-2-propene-1-sulfonate proceed through paths b and c, whereas the reactions of 4-penten-1-ol and 4-pentyn-1-ol proceed through paths a and c. This difference reflects the difference of the trans effect and/or trans influence of the pi-coordinated olefins on the Pt(N(2)O(2)). The pentacoordinate state in path b is employed only by the sulfo-olefins, because these exert stronger trans effect. The steps 3 and 4 reflect the effect of the axial alkyl ligand (R) on the charge localization (R-Pt(IV)(N(2)O(2))-Pt(II)(N(4))) and delocalization (R-Pt(III)(N(2)O(2))-Pt(III)(N(4))-OH(2)); when R is p-styrenesulfonate having an electron withdrawing group, the charge localization in the dimer is less pronounced and the water molecule on the Pt(N(4)) atom is retained (R-Pt(III)(N(2)O(2))-Pt(III)(N(4))-OH(2)) in the intermediate state. In both routes, the alkyl group undergoes nucleophilic attack of water, and the oxidized products are released via reductive elimination.

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Mechanisms of the Axial Ligand Substitution Reactions of Dinuclear, Head‐to‐Head α‐Pyrrolidonato‐ and Pivalamidato‐Bridged cis‐Diammineplatinum(III) Complexes with Halide Ions

et al. 2003

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The acid dissociation constant of the axial aqua ligand in the Head-to-Head (HH) dinuclear pivalamidato-bridged cis-di-) and the formation constants of the successive substitution reactions on the axial sites of the HH α-pyrrolidonato-bridged cis-diammineplatinum(III) dinuclear complex and the HH pivalamidato-bridged cis-diammineplatinum(III) dinuclear complex with halide ions X − (X − = Cl − and Br − ) to give monohalo and dihalo complexes were determined spectrophotometrically at 25°C and I = 2.0 M. A kinetic study was also performed for the monohalo and dihalo complex formations. The effect of the bridging ligand upon the axial site reactivity was compared and discussed. The ligand substitution behavior of the monohalo complex was af-

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Formation mechanism of 2-methyl-2-buten-1,4-diol and 2-methyl-3-buten-1,2-diol from 2-methyl-1,3-butadiene on a head-to-head pivalamidato-bridged cis-diammineplatinum(iii) binuclear complex

et al. 2011

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Reactions of a pivalamidato-bridged head-to-head (HH) platinum(III) binuclear complex with 2-methyl-1,3-butadiene (isoprene) and p-styrenesulfonate and of an α-pyrrolidonato-bridged HH platinum(III) binuclear complex with p-styrenesulfonate were studied kinetically using UV-vis spectrophotometry and (1)H NMR spectroscopy, and detailed reaction mechanisms are proposed. Pt(III) binuclear complexes react with p-styrenesulfonate in four successive steps with mechanisms similar to that for an HH α-pyridonato-bridged Pt(III) binuclear complex with p-styrenesulfonate. In the case of isoprene, four steps were observed on the basis of UV-vis spectrophotometry. However, the reaction kinetics for steps 1 and 2 correspond to those for the previous reaction system, and those for steps 3 and 4 do not correspond to those for the previous system or to those observed by using (1)H NMR spectroscopy for the present isoprene system. By using UV-vis spectrophotometry, it was shown that isoprene preferentially π-coordinates to the Pt(N(2)O(2)) atom via the double bond adjacent to the methyl group in step 1. In step 2, a second isoprene molecule π-coordinates to the Pt(N(4)) atom, which is the rate-determining step, followed by nucleophilic attack of a water molecule on the π-coordinated isoprene on the Pt(N(2)O(2)) atom to form two isomeric σ-complexes. In the same step, π-coordinated isoprene on the Pt(N(4)) atom of the σ-complexes is released. This is different from the reaction of the Pt(III) binuclear complexes with other olefins. In step 3, reductive elimination of the σ-complexes occurs to form two diols and the HH pivalamidato-bridged Pt(II) binuclear complex. Finally, acid decomposition of the Pt(II) binuclear complex occurs to form monomers in step 4. From (1)H NMR spectroscopic observations, fast isomerization between σ-complexes and reductive elimination of the σ-complexes occurs in step 3, and isomerization from a 1,4-diol to a 1,2-diol occurs in step 4.

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Thermal-Hydraulic Analysis of the Initial Phase of the Three Mile Island Unit 2 Accident

1989

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Stuffer Box Method

Sekiya

1998

Sen-i Gakkaishi

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Hideo Sekiya

Mechanism of Ketone and Alcohol Formations from Alkenes and Alkynes on the Head-to-head 2-Pyridonato-Bridged cis-Diammineplatinum(III) Dinuclear Complex

Mechanisms of the Axial Ligand Substitution Reactions of Dinuclear, Head‐to‐Head α‐Pyrrolidonato‐ and Pivalamidato‐Bridged cis‐Diammineplatinum(III) Complexes with Halide Ions

Formation mechanism of 2-methyl-2-buten-1,4-diol and 2-methyl-3-buten-1,2-diol from 2-methyl-1,3-butadiene on a head-to-head pivalamidato-bridged cis-diammineplatinum(iii) binuclear complex

Thermal-Hydraulic Analysis of the Initial Phase of the Three Mile Island Unit 2 Accident

Stuffer Box Method

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