Abby C. Guerin scite author profile

Abby C. Guerin

2Publications

55Citation Statements Received

36Citation Statements Given

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University Surgical Associates, Louisiana State University

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Determining the Energetics of the Hydrogen Bond through FTIR: A Hands-On Physical Chemistry Lab Experiment

et al. 2016

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Hydrogen bonds are very important chemical structures that are responsible for many unique and important properties of solvents, such as the solvation power of water. These distinctive features are directly related to the stabilization energy conferred by hydrogen bonds to the solvent. Thus, the characterization of hydrogen bond energetics has been vital for many areas of science. We present a laboratory experiment for physical chemistry in which the hydrogen bond energetics between methyl acetate and water is investigated by Fourier transform infrared spectroscopy (FTIR). The experiment consists of measuring the temperature dependent IR spectra of methyl acetate to determine the changes in the enthalpy and entropy of making/breaking hydrogen bonds. This experiment aims at providing the students with hands-on experience in the following topics: solution and sample cell preparation, IR spectra collection and analysis, and data modeling and thermodynamic calculations. The overall objective of this experiment is to familiarize chemistry students with a methodology used to extract meaningful and up-to-date physical chemistry properties from real experimental data.

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Unusual molecular mechanism behind the thermal response of polypeptoids in aqueous solutions

Xuan

Guerin

et al. 2017

Phys. Chem. Chem. Phys.

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Poly(α-peptoid)s, a structural isomer to polypeptides, have recently attracted a significant amount of scientific attention. However, the molecular mechanism behind the thermal response of this class of polymers is unknown. Here, the thermal response of two polypeptoids in aqueous solutions was studied by different methodologies, including dynamic light scattering, IR spectroscopies, NMR, etc. Our studies focused on two polypeptoids with identical alkyl side chain compositions, but different architecture; i.e., cyclic and linear. Aqueous solutions of the cyclic and linear polymers present phase transition temperatures at 43 °C and 47 °C, respectively, that have an anomalous dependence on the polymer morphology as expected from macromolecules having very similar solvent interactions, but different conformational entropy. The atypical trend in the phase transition temperature is found to be caused by the initiator required in the synthesis which favors the formation of soluble dimers in the cyclic polymer. Our experimental findings also demonstrate that the phase transition, irrespective of the morphology, is governed by the polymer backbone conformation which depends on the composition and structure of the alkyl side chains. This proposed mechanism is novel and different from the commonly assumed mechanism for thermo-responsive polymers in which the hydration of the polymer cause by a coil to globule transition is the determining factor. Moreover, the proposed mechanism is likely to be general since it can explain not only the experimental findings of this work, but also observations of the thermal response and conformation of other studied polypeptoids in water. Finally, our mechanism gives a molecular framework for the rational designed of polypeptoids with tailored phase transition temperatures.

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Abby C. Guerin

Determining the Energetics of the Hydrogen Bond through FTIR: A Hands-On Physical Chemistry Lab Experiment

Unusual molecular mechanism behind the thermal response of polypeptoids in aqueous solutions

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