| Literature DB >> 32293757 |
Elmira Mohammadi1, Lukáš Petera2,3, Homa Saeidfirozeh2, Antonín Knížek2,3, Petr Kubelík2,4, Roman Dudžák4,5, Miroslav Krůs5, Libor Juha4,5, Svatopluk Civiš2, Rémi Coulon1, Ondřej Malina1, Juri Ugolotti1, Václav Ranc1, Michal Otyepka1, Jiří Šponer1,6, Martin Ferus2, Judit E Šponer1,6.
Abstract
Terrestrial volcanism has been one of the dominant geological forces shaping our planet since its earliest existence. Its associated phenomena, like atmospheric lightning and hydrothermal activity, provide a rich energy reservoir for chemical syntheses. Based on our laboratory simulations, we propose that on the early Earth volcanic activity inevitably led to a remarkable production of formic acid through various independent reaction channels. Large-scale availability of atmospheric formic acid supports the idea of the high-temperature accumulation of formamide in this primordial environment.Entities:
Keywords: CO2 reduction; formic acid; hydrothermal synthesis; laser chemistry; prebiotic synthesis
Year: 2020 PMID: 32293757 DOI: 10.1002/chem.202000323
Source DB: PubMed Journal: Chemistry ISSN: 0947-6539 Impact factor: 5.236