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CH3NO as a potential intermediate for early atmospheric HCN: a quantum chemical insight

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Abstract

Hydrogen cyanide (HCN) has played a central role in the production of several biological molecules under prebiotic conditions on primitive Earth. Previously, K. J. Zahnle (J. Geophys. Res.: Atmos., 1986, 91, 2819) and Tian et al. (Earth Planet. Sci. Lett., 2011, 308, 417) emphasized that HCN production in the early Earth's CH4-rich atmosphere could have been possible through the reaction between active nitrogen atoms (N) and methane photolysis products. Here, we have proposed alternative pathways for the formation of early atmospheric HCN via the decomposition of CH3NO as an intermediate. In the early Earth's O2-free atmosphere, CH3˙ could preferentially attach to NO, which was generated via early atmospheric volcanism or lightning and photochemical processes. We have quantum chemically explored both unimolecular and bimolecular decomposition pathways of CH3NO via the assistance of another CH3NO molecule and via H2O, NH3, HCl, HCOOH, HNO3 and H2SO4 catalysis. Both energetic and kinetic analyses reveal that H2SO4 is more efficient in this regard than other atmospheric species. Overall, it has been suggested that the proposed bimolecular decomposition pathways might have been alternative pathways for the formation of HCN under certain conditions on prebiotic Earth, while the unimolecular decomposition of CH3NO could lead to the formation of HCN in the high temperature volcanic environment on early Earth.

Graphical abstract: CH3NO as a potential intermediate for early atmospheric HCN: a quantum chemical insight

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Publication details

The article was received on 10 Jul 2019, accepted on 17 Oct 2019 and first published on 17 Oct 2019


Article type: Paper
DOI: 10.1039/C9CP03874D
Phys. Chem. Chem. Phys., 2019, Advance Article

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    CH3NO as a potential intermediate for early atmospheric HCN: a quantum chemical insight

    S. Ghoshal, A. Pramanik, S. Biswas and P. Sarkar, Phys. Chem. Chem. Phys., 2019, Advance Article , DOI: 10.1039/C9CP03874D

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