Kazuya Osaka scite author profile

We performed laboratory experiments on the formation of water and its isotopologues by surface reactions of hydrogen peroxide (H2O2) with hydrogen (H) atoms and their deuterated counterparts (D2O2, D) at 10-30 K. High-purity H2O2 (> 95%) was prepared in situ by the codeposition of molecular oxygen and H atoms at relatively high temperatures (45-50 K). We determined that the high-purity H2O2 solid reacts with both H and deuterium (D) atoms at 10-30 K despite the large activation barriers (-2000 K). Moreover, the reaction rate for H atoms is approximately 45 times faster than that for D atoms at 15 K. Thus, the observed large isotope effect indicates that these reactions occurred through quantum tunneling. We propose that the observed HDO/H2O ratio in molecular clouds might be a good tool for the estimation of the atomic D/H ratio in those environments.

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Hydrogen–deuterium substitution in solid ethanol by surface reactions at low temperatures

Oba¹,

Osaka²,

Chigai³

et al. 2016

Mon. Not. R. Astron. Soc.

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Kazuya Osaka

Reaction kinetics and isotope effect of water formation by the surface reaction of solid H₂O₂with H atoms at low temperatures

Hydrogen–deuterium substitution in solid ethanol by surface reactions at low temperatures

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Kazuya Osaka

Reaction kinetics and isotope effect of water formation by the surface reaction of solid H2O2with H atoms at low temperatures

Hydrogen–deuterium substitution in solid ethanol by surface reactions at low temperatures

Contact Info

Product

Resources

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Reaction kinetics and isotope effect of water formation by the surface reaction of solid H₂O₂with H atoms at low temperatures