Transition‐state spectroscopy using ultrashort laser pulses |
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Authors: | Takayoshi Kobayashi Atsushi Yabushita |
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Institution: | 1. Department of Applied Physics and Chemistry and Institute for Laser Science, University of Electro‐Communications, 1‐5‐1 Chofugaoka, Chofu, Tokyo, 182‐8585, Japan;2. International Cooperative Research Project (ICORP), Japan Science and Technology Agency, 4‐1‐8 Honcho, Kawaguchi, Saitama 332‐0012, Japan;3. Department of Electrophysics, National Chiao Tung University, Hsinchu 30010, Taiwan;4. Institute of Laser Engineering, Osaka University, 2‐6 Yamada‐oka, Suita, Osaka 565‐0871, Japan Phone: +81‐42‐443‐5845 Fax: +81‐42‐443‐5825 |
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Abstract: | To gain a complete understanding of a chemical reaction, it is necessary to determine the structural changes that occur to the reacting molecules during the reaction. Chemists have long dreamed of being able to determine the molecular structure changes that occur during a chemical reaction, including the structures of transition states (TSs). The use of ultrafast spectroscopy to gain a detailed knowledge of chemical reactions (including their TSs) promises to be a revolutionary way to increase reaction efficiencies and enhance the reaction products, which is difficult to do using conventional methods that are based on trial and error. To confirm the molecular structures of TSs predicted by theoretical analysis, chemists have long desired to directly observe the TSs of chemical reactions. Direct observations have been realized by ultrafast spectroscopy using ultrashort laser pulses. Our group has been able to stably generate visible to near‐infrared sub‐5‐fs laser pulses using a noncollinear optical parametric amplifier (NOPA). We used these sub‐5‐fs pulses to study reaction processes (including their TSs) by detecting structural changes. We determine reaction mechanisms by observing the TSs in a chemical reaction and by performing density‐functional theory calculations. DOI 10.1002/tcr.201000018 |
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Keywords: | lasers reaction dynamics transition states ultrafast spectroscopy |
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