ORCID
https://orcid.org/0009-0002-1452-6874
Keywords
MOF, dipoles, chirality, substitutional solid solutions
Abstract
In this work substitutional solid solutions of dipolar and chiral MOFs were made with predetermined structure, composition, and function. Through encoding the dipoles and chirality into the organic linkers and varying their incorporation into cubic porous interpenetrated zirconium MOF system the bulk dipolar and chiral properties were assessed. Specifically, the real and imaginary components of the polarization properties in respect to the dipoles and the optical properties in respects to chirality. It was found the bulk properties are dependent on the crystal structure and the inherent porosity of the MOFs themselves.
Completion Date
2025
Semester
Summer
Committee Chair
Andres Campiglia
Degree
Doctor of Philosophy (Ph.D.)
College
College of Sciences
Department
Chemistry
Format
Identifier
DP0029574
Language
English
Document Type
Thesis
Campus Location
Orlando (Main) Campus
Subjects
Metal-organic frameworks; Molecular crystals--Optical properties; Molecular crystals--Magnetic properties; Solid state chemistry--Research; Chirality--Industrial applications
STARS Citation
Langlois, Kyle R., "A substitutional solid solution approach to exploring dipoles and chirality in MOFs." (2025). Graduate Thesis and Dissertation post-2024. 333.
https://stars.library.ucf.edu/etd2024/333
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