Rodziewicz P, Polanska M, Meyer B (2026)
Publication Type: Journal article
Publication year: 2026
Book Volume: 27
Article Number: e202500825
Journal Issue: 13
Hydrazine is a highly hazardous chemical and can be present in the atmosphere due to its usage in rocket fuels and propellant mixtures. Ice particles, present in polar stratospheric clouds, are common components of the natural atmosphere and can adsorb small organic molecules, such as hydrazine. We investigate the (0001) surface of hexagonal ice, acting as a phase boundary for the adsorption of hydrazine using density functional theory (DFT). Different types of position of hydrazine monomers and dimers on the ice surface were considered. We analyze the energetic and structural properties of these adsorbates utilizing static DFT calculations and Car–Parrinello molecular dynamics simulations. We study the interplay between molecule–molecule (N
APA:
Rodziewicz, P., Polanska, M., & Meyer, B. (2026). Hydrazine Adsorption on Hexagonal Ice (0001): First-Principles Investigations on Stability, Dynamics, and Chirality Changes. ChemPhysChem, 27(13). https://doi.org/10.1002/cphc.202500825
MLA:
Rodziewicz, Pawel, Marta Polanska, and Bernd Meyer. "Hydrazine Adsorption on Hexagonal Ice (0001): First-Principles Investigations on Stability, Dynamics, and Chirality Changes." ChemPhysChem 27.13 (2026).
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