Excitation Transfer in the Radiolysis of Solid Alkane Mixtures at 77 K
スポンサーリンク
概要
- 論文の詳細を見る
The radiolysis of isobutane-propane (less than 5 mol %) or neopentane-alkane (5 mol%) mixtures has been studied at 77 K by means of ESR spectroscopy. When these alkane mixtures are γ-irradiated, the solute radicals are mainly formed by energy transfer from γ-irradiated isobutane or neopentane to the solutes. It is discussed whether the energy transfer is due to a proton transfer, a positive-charge transfer, or an excitation transfer, and it is concluded, for the following reasons, that the energy tranfser is probably due to the excitation transfer and that the excitation transfer may occur <I>via</I> highly-excited states of isobutane or neopentane; (i) The ionization potentials and the energies of the first singlet-excited states of the some additives are higher than those of isobutane or neopentane. (ii) The decrease in the solvent radical yields and the increase in the solute radical yields upon the addition of the solutes to the isobutane or neopentane amount approximately to 2–2.5 G-units. (iii) The yields of hydrogen increase sharply upon the addition of cyclopentane in the radiolysis of solid neopentane. (iv) It was concluded in previous studies that the formation of the solvent radical in the radiolysis of solid isobutane is due to the fragmentation of excited isobutane produced directly by γ-irradiation.
- 公益社団法人 日本化学会の論文
著者
-
Miyazaki Tetsuo
Department Of Applied Chemistry Graduate School Of Engineering Nagoya University
-
Saitake Yoshiyuki
Department of Synthetic Chemistry, Faculty of Engineering, Nagoya University
-
Kuri Zen-ichiro
Department of Synthetic Chemistry, Faculty of Engineering, Nagoya University
-
Wakayama Terunobu
Department of Synthetic Chemistry, Faculty of Engineering, Nagoya University
-
Fukaya Mitsuharu
Department of Synthetic Chemistry, Faculty of Engineering, Nagoya University
関連論文
- OJ-121 Impact of Hypertension on long-term (more than 10 years) outcome following Aorto Coronary Bypass Surgery(Cardiovascular Surgery/CABG 1 (IHD) : OJ15)(Oral Presentation (Japanese))
- Differences in the Sensitivity to UVB Radiation of Two Cultivars of Rice (Oryza Sativa L.) based on Observation of Long-Lived Radicals
- Large Isotope Effects in Tunneling Chemical Reactions
- Effect of Crystal Size on the Radiolysis of Solid Succinic Acid
- The moderation and tunneling reaction of recoil T atoms in solid xenon-hydrogen mixtures at 77K.
- Selective hydrogen atom abstraction by H atoms in radiolysis and photolysis at 77 K: Decane-d22, tetramethylsilane, and xenon matrices.
- Temperature effect on decay of ions and radicals in supercooled liquids as studied by pulse radiolysis and .GAMMA.-radiolysis: 1-propanol and ethanol.
- Energy Transfer in the Radiolysis of Neopentane-Alkane Mixture in the Solid Phase at 77 K
- Luminescence from 2,3-Dimethylbutane Containing Toluene in the Solid Phase at 77°K during γ-Irradiation
- The channeling of hot H atoms in the radiolysis and photolysis of crystalline alkane.
- Excitation Transfer in the Radiolysis of Solid Alkane Mixtures at 77 K
- The Migration of the Exciton in the Radiolysis of Alkanes
- Effect of Phase on Hot Hydrogen Atom Abstraction Reaction with Solid Isobutane as Studied by Electron Spin Resonance Spectroscopy
- Mechanism of High-energy-induced Luminescence of Solid 2,3-Dimethylbutane Containing Toluene at 77 K
- Selective hydrogen atom abstraction by hydrogen atoms in photolysis and radiolysis of alkane mixtures at 77 K.
- The Role of Reaction Sites in the Radiolysis of Solid Succinic Acid
- Selective formation of solute radicals in the radiolysis of neopentane-cyclopentane mixtures at 4 and 77K as studied by capillary gas chromatography and ESR spectroscopy.
- The characteristic behavior of recoil tritium atom in solid neopentane at 77K. The application of a hot zone model.
- The trapping and release of injected hydrogen isotopes in vitreous silica.
- A Photoconductivity Study of Trapped Ionic Species in γ-Irradiated Ethylcyclohexane Glass at 77 K
- A Further Study of the Scavengeable Electron Yield in the Radiolysis of Hydrocarbon Glasses at −196°C
- Isotope effect on hydrogen atom abstraction reaction by recoil t atoms in solid n-C10D22-n-C10H22 mixtures. Comparison of recoil t atoms with D atoms in .GAMMA.-radiolysis.
- Scavengeable Electron Yield in the Radiolysis of Liquid and Solid Hydrocarbons
- The Effect of Chloromethanes on Hydrogen Formation in the Radiolysis of Methylcyclohexane and 3-Methylpentane at −196°C
- Effect of Phase on Excitation Transfer in the Radiolysis of Isobutane