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The new class of unusual reactive substances detected in atmospheric chemistry

Free-Jet Flow Experiment at TROPOS

The laboratory installation of the free jet experiment at TROPOS in Leipzig, with this direct proof was provided for the first time that the formation of hydrotrioxides (ROOOH) takes place under atmospheric conditions from the reaction of peroxy radicals (RO2) with hydroxyl radicals (OH). Credit: Tilo Arnhold, TROPOS

An international team of researchers has now successfully detected atmospheric oxides (ROOOH) for the first time under atmospheric conditions.

Until now, the existence of these organic compounds with the unusual group OOOH has been purely speculative. In laboratory experiments, their formation during the oxidation of important hydrocarbons, such as isoprene and alpha-pinene, has been clearly demonstrated.

Important data on this new class of compounds were calculated using quantum chemical calculations and model calculations. The oxidation of isoprene produces about 10 million metric tons of it each year in the Earth’s atmosphere. The lifespan of ROOOHs is estimated in minutes to hours.

Hydrotrioxides are a previously unobserved class of substances in the atmosphere whose effects on health and the environment must be investigated, write researchers led by the Leibniz Institute for Tropospheric Research (TROPOS) in the current issue of the renowned scientific journal Science.

The bottom layer of our planet’s atmosphere acts as a vast chemical reactor in which 100 million metric tons of hydrocarbons are converted each year, eventually leading to the formation of carbon dioxide and water. These hydrocarbons are emitted by forests or anthropogenic sources. A wide variety of oxidation processes take place, but only some of them are well understood. A recent focus of atmospheric research is on hydrotrioxides (ROOOH). These are gaseous substances with a group of three consecutive oxygen atoms “O” and a hydrogen.[{” attribute=””>atom “H,” which is bonded to an organic rest (R). Hydroperoxides (ROOH) with two oxygen atoms have long been known and proven.

In the literature, it has previously been speculated that there could be substances in the atmosphere carrying not only two oxygen atoms (ROOH) but also three oxygen atoms (ROOOH). In organic synthesis, hydrotrioxides are used to form special oxidation products in the reaction with alkenes. However, these reactive and thermally unstable hydrotrioxides are produced there in organic solvents at very low temperatures around -80°C (-112°F) and further react. Whether this substance class also exists as a gas in the atmosphere at significantly higher temperatures was unknown until now.

Hydrotrioxides Experiments at TROPOS

Until now, there was only speculation about hydrotrioxides (ROOOH), that these organic compounds with the unusual OOOH group would exist. In laboratory experiments at TROPOS in Leipzig, their formation during the oxidation of important hydrocarbons, such as isoprene and alpha-pinene, could be clearly demonstrated now. Credit: Tilo Arnhold, TROPOS

In their study, researchers from the Leibniz Institute for Tropospheric Research (TROPOS), the University of Copenhagen, and the California Institute of Technology (Caltech) have now been able to provide direct evidence for the first time that the formation of hydrotrioxides also takes place under atmospheric conditions from the reaction of peroxy radicals (RO2) with hydroxyl radicals (OH). The laboratory investigations were mainly performed at TROPOS in Leipzig in a free-jet flow tube at room temperature and a pressure of 1 bar air — combined with the use of very sensitive mass spectrometers. Additional experimental information, especially on the stability of the hydrotrioxides, was provided by the investigations at Caltech. Quantum chemical calculations were performed by the University of Copenhagen to describe the reaction mechanisms as well as the temperature- and photostability of hydrotrioxides. Global simulations from TROPOS with the chemistry-climate model ECHAM-HAMMOZ enabled an initial assessment of the effects on the Earth’s atmosphere.

“It is really exciting to show the existence of a universal new class of compounds formed from atmospherically prevalent precursors (RO2 and OH radicals),” reports Prof. Henrik G. Kjærgaard from the University of Copenhagen.

“It is very surprising that these interesting molecules are so stable with such a high oxygen content. Further research is needed to determine the role of hydrotrioxides for health and the environment,” emphasizes Dr. Torsten Berndt from TROPOS.

“Our study has shown that direct observation of hydrotrioxides using mass spectrometry is feasible. This means that it is now possible to further investigate these compounds in different systems including, perhaps, the quantification of their abundance in the environment,” explains Prof. Paul O. Wennberg from Caltech.

The significance of the first successful detection of this new substance class “hydrotrioxides” will only become clear in the next few years. However, with the experimental proof and the current knowledge, the research study by Berndt et al. has laid the first groundwork that should also awaken the interest of other research groups.

For more on this research, see New Type of Extremely Reactive Substance in the Atmosphere.

Reference: “Hydrotrioxide (ROOOH) formation in the atmosphere” by Torsten Berndt, Jing Chen, Eva R. Kjærgaard, Kristian H. Møller, Andreas Tilgner, Erik H. Hoffmann, Hartmut Herrmann, John D. Crounse, Paul O. Wennberg and Henrik G. Kjaergaard, 26 May 2022, Science.
DOI: 10.1126/science.abn6012

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