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Using Excimeric Fluorescence to Study How the Cooling Rate Determines the Behavior of Naphthalenes in Freeze-Concentrated Solutions: Vitrification and Crystallization

Gabriela Ondrušková, Lukáš Veselý, Jan Zezula, Johannes Bachler, Thomas Loerting, Dominik Heger

2020The Journal of Physical Chemistry B16 citationsDOI

Abstract

We utilized fluorescence spectroscopy to learn about the molecular arrangement of naphthalene (Np) and 1-methylnaphthalene (MeNp) in frozen aqueous solutions. The freezing induces pronounced compound aggregation in the freeze-concentrated solution (FCS) in between the ice grains. The fluorescence spectroscopy revealed prevalent formation of a vitrified solution and minor crystallization of aromatic compounds. The FCS is shown as a specific environment, differing significantly from not only the pure compounds but also the ice surfaces. The results indicate marked disparity between the behavior of the Np and the MeNp; the cooling rate has a major impact on the former but not on the latter. The spectrum of the Np solution frozen at a faster cooling rate (ca 20 K/min) exhibited a temperature-dependent spectral behavior, whereas the spectrum of the solution frozen at a slower rate (ca 2 K/min) did not alter before melting. We interpret the observation through considering the varied composition of the FCS: Fast freezing leads to a higher water content expressed by the plasticizing effect, allowing molecular rearrangement, while slow cooling produces a more concentrated and drier environment. The experiments were conceived as generalizable for environmentally relevant pollutants and human-made freezing.

Topics & Concepts

VitrificationCrystallizationNaphthaleneAqueous solutionFluorescenceChemistryFluorescence spectroscopyMelting temperatureIce formationChemical engineeringMaterials scienceOrganic chemistryGeologyOpticsPhysicsAtmospheric sciencesComposite materialEngineeringMedicineAndrologySpectroscopy and Quantum Chemical Studiesnanoparticles nucleation surface interactionsMaterial Dynamics and Properties