A missing link in the nitrogen-rich organic chain on Titan

TL;DR

This study reveals that nitrogen-rich diazo-ions formed from N2+ and methane in Titan's atmosphere could be a crucial missing link explaining the high nitrogen content in Titan's organic matter, advancing astrochemical understanding.

Contribution

The paper demonstrates the formation of nitrogen-rich diazo-ions via reactions between N2+ ions and radicals, highlighting a previously overlooked pathway in Titan's atmospheric chemistry.

Findings

Experimental detection of CH3N2+ and CH2N2+ ions under UV radiation.

Theoretical confirmation of N2+ reacting with CH3 radicals to form diazo-ions.

Identification of a missing link in nitrogen incorporation into Titan's organic molecules.

Abstract

Context. The chemical building blocks of life contain a large proportion of nitrogen, an essential element. Titan, the largest moon of Saturn, with its dense atmosphere of molecular nitrogen and methane, offers an exceptional opportunity to explore how this element is incorporated into carbon chains through atmospheric chemistry in our Solar System. A brownish dense haze is consistently produced in the atmosphere and accumulates on the surface on the moon. This solid material is nitrogen-rich and may contain prebiotic molecules carrying nitrogen. Aims. To date, our knowledge of the processes leading to the incorporation of nitrogen into organic chains has been rather limited. In the present work, we investigate the formation of nitrogen-bearing ions in an experiment simulating Titan s upper atmosphere, with strong implications for the incorporation of nitrogen into organic matter on Titan. Methods. By combining experiments and theoretical calculations, we show that the abundant N2+ ion, produced at high altitude by extreme-ultraviolet solar radiation, is able to form nitrogen-rich organic species. Results. An unexpected and important formation of CH3N2+ and CH2N2+ diazo-ions is experimentally observed when exposing a gas mixture composed of molecular nitrogen and methane to extreme-ultraviolet radiation. Our theoretical calculations show that these diazo-ions are mainly produced by the reaction of N2+ with CH3 radicals. These small nitrogen-rich diazo-ions, with a N/C ratio of two, appear to be a missing link that could explain the high nitrogen content in Titan s organic matter. More generally, this work highlights the importance of reactions between ions and radicals, which have rarely been studied thus far, opening up new perspectives in astrochemistry.