Vacuum ultraviolet photodissociation of sulfur dioxide and its implications for oxygen production in the early Earth's atmosphere

The emergence of molecular oxygen (O 2 ) in the Earth's primitive atmosphere is an issue of major interest. Although the biological processes leading to its accumulation in the Earth's atmosphere are well understood, its abiotic source is still not fully established. Here, we report a new...

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Published in:Chemical science (Cambridge) 2023-08, Vol.14 (31), p.8255-8261
Main Authors: Chang, Yao, Fu, Yanlin, Chen, Zhichao, Luo, Zijie, Zhao, Yarui, Li, Zhenxing, Zhang, Weiqing, Wu, Guorong, Fu, Bina, Zhang, Dong H, Ashfold, Michael N. R, Yang, Xueming, Yuan, Kaijun
Format: Article
Language:English
Subjects:
Atmosphere
Biological activity
Chemistry
Oxygen production
Photodissociation
Planet formation
Planetary atmospheres
Primitive Earth atmosphere
Sulfur dioxide
Volcanic eruptions
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Summary:The emergence of molecular oxygen (O 2 ) in the Earth's primitive atmosphere is an issue of major interest. Although the biological processes leading to its accumulation in the Earth's atmosphere are well understood, its abiotic source is still not fully established. Here, we report a new direct dissociation channel yielding S( 1 D) + O 2 (a 1 Δ g /X 3 Σ g − ) products from vacuum ultraviolet (VUV) photodissociation of SO 2 in the wavelength range between 120 and 160 nm. Experimental results show O 2 production to be an important channel from SO 2 VUV photodissociation, with a branching ratio of 30 ± 5% at the H Lyman-α wavelength (121.6 nm). The relatively large amounts of SO 2 emitted from volcanic eruptions in the Earth's late Archaean eon imply that VUV photodissociation of SO 2 could have provided a crucial additional source term in the O 2 budget in the Earth's primitive atmosphere. The results could also have implications for abiotic oxygen formation on other planets with atmospheres rich in volcanically outgassed SO 2 . The emergence of molecular oxygen (O 2 ) in the Earth's primitive atmosphere is an issue of major interest.
ISSN:2041-6520
2041-6539
DOI:10.1039/d3sc03328g