Impacts of Conformational Geometries in Fluorinated Alkanes

Tim Brandenburg; Ronny Golnak; Masanari Nagasaka; Kaan Atak; Sreeju Sreekantan Nair Lalithambika; Nobuhiro Kosugi; Emad F. Aziz

doi:10.1038/srep31382

Impacts of Conformational Geometries in Fluorinated Alkanes

Tim Brandenburg, Ronny Golnak, Masanari Nagasaka, Kaan Atak, Sreeju Sreekantan Nair Lalithambika, Nobuhiro Kosugi, Emad F. Aziz

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

Research of blood substitute formulations and their base materials is of high scientific interest. Especially fluorinated microemulsions based on perfluorocarbons, with their interesting chemical properties, offer opportunities for applications in biomedicine and physical chemistry. In this work, carbon K-edge absorption spectra of liquid perfluoroalkanes and their parent hydrocarbons are presented and compared. Based on soft X-ray absorption, a comprehensive picture of the electronic structure is provided with the aid of time dependent density functional theory. We have observed that conformational geometries mainly influence the chemical and electronic interactions in the presented liquid materials, leading to a direct association of conformational geometries to the dissolving capacity of the presented perfluorocarbons with other solvents like water and possibly gases like oxygen.

Original language	English
Article number	31382
Journal	Scientific Reports
Volume	6
DOIs	https://doi.org/10.1038/srep31382
State	Published - 16 Aug 2016
Externally published	Yes

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title = "Impacts of Conformational Geometries in Fluorinated Alkanes",

abstract = "Research of blood substitute formulations and their base materials is of high scientific interest. Especially fluorinated microemulsions based on perfluorocarbons, with their interesting chemical properties, offer opportunities for applications in biomedicine and physical chemistry. In this work, carbon K-edge absorption spectra of liquid perfluoroalkanes and their parent hydrocarbons are presented and compared. Based on soft X-ray absorption, a comprehensive picture of the electronic structure is provided with the aid of time dependent density functional theory. We have observed that conformational geometries mainly influence the chemical and electronic interactions in the presented liquid materials, leading to a direct association of conformational geometries to the dissolving capacity of the presented perfluorocarbons with other solvents like water and possibly gases like oxygen.",

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AU - Brandenburg, Tim

AU - Golnak, Ronny

AU - Nagasaka, Masanari

AU - Atak, Kaan

AU - Lalithambika, Sreeju Sreekantan Nair

AU - Kosugi, Nobuhiro

AU - Aziz, Emad F.

PY - 2016/8/16

Y1 - 2016/8/16

N2 - Research of blood substitute formulations and their base materials is of high scientific interest. Especially fluorinated microemulsions based on perfluorocarbons, with their interesting chemical properties, offer opportunities for applications in biomedicine and physical chemistry. In this work, carbon K-edge absorption spectra of liquid perfluoroalkanes and their parent hydrocarbons are presented and compared. Based on soft X-ray absorption, a comprehensive picture of the electronic structure is provided with the aid of time dependent density functional theory. We have observed that conformational geometries mainly influence the chemical and electronic interactions in the presented liquid materials, leading to a direct association of conformational geometries to the dissolving capacity of the presented perfluorocarbons with other solvents like water and possibly gases like oxygen.

AB - Research of blood substitute formulations and their base materials is of high scientific interest. Especially fluorinated microemulsions based on perfluorocarbons, with their interesting chemical properties, offer opportunities for applications in biomedicine and physical chemistry. In this work, carbon K-edge absorption spectra of liquid perfluoroalkanes and their parent hydrocarbons are presented and compared. Based on soft X-ray absorption, a comprehensive picture of the electronic structure is provided with the aid of time dependent density functional theory. We have observed that conformational geometries mainly influence the chemical and electronic interactions in the presented liquid materials, leading to a direct association of conformational geometries to the dissolving capacity of the presented perfluorocarbons with other solvents like water and possibly gases like oxygen.

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Impacts of Conformational Geometries in Fluorinated Alkanes

Abstract

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