# Reactive molecular dynamics simulations of organometallic compound   W(CO)6 fragmentation

**Authors:** Pablo de Vera, Alexey Verkhovtsev, Gennady Sushko, Andrey V., Solov'yov

arXiv: 1905.05507 · 2021-07-28

## TL;DR

This study uses reactive molecular dynamics simulations to accurately model the fragmentation of W(CO)$_6$ under irradiation, reproducing experimental results and revealing mechanisms relevant to radiation chemistry.

## Contribution

First detailed reactive MD simulation of W(CO)$_6$ fragmentation that matches experimental data and elucidates energy distribution effects on fragmentation pathways.

## Key findings

- Energy distribution causes CO evaporation and W(CO)$_n^+$ formation.
- Localized energy leads to C--O bond cleavage and WC(CO)$_n^+$ fragments.
- Calculated fragment energies agree with experiments.

## Abstract

Irradiation- and collision-induced fragmentation studies provide information about geometry, electronic properties and interactions between structural units of various molecular systems. Such knowledge brings insights into irradiation-driven chemistry of molecular systems which is exploited in different technological applications. An accurate atomistic-level simulation of irradiation-driven chemistry requires reliable models of molecular fragmentation which can be verified against mass spectrometry experiments. In this work fragmentation of a tungsten hexacarbonyl, W(CO)$_6$, molecule is studied by means of reactive molecular dynamics simulations. The quantitatively correct fragmentation picture including different fragmentation channels is reproduced. We show that distribution of the deposited energy over all degrees of freedom of the parent molecule leads to thermal evaporation of CO groups and the formation of W(CO)$_n^+$ ($n = 0-5$) fragments. Another type of fragments, WC(CO)$_n^+$ ($n = 0-4$), is produced due to cleavage of a C--O bond as a result of the localized energy deposition. Calculated fragment appearance energies are in good agreement with experimental data. These fragmentation mechanisms have a general physical nature and should take place in radiation-induced fragmentation of different molecular and biomolecular systems.

## Full text

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## Figures

6 figures with captions in the complete paper: https://tomesphere.com/paper/1905.05507/full.md

## References

45 references — full list in the complete paper: https://tomesphere.com/paper/1905.05507/full.md

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Source: https://tomesphere.com/paper/1905.05507