Personal profile
Research Interests
Dr. Parra’s research focuses on the investigation of inter- and intra-molecular interactions using computational methodologies based on molecular orbital theory and density functional theory. Of primary interest has been the study of non-additive or cooperative effects in hydrogen bonding interactions, and the study conformations of molecules and the binding of metal ions by macromolecules. Dr. Parra’s research has expanded to include other noncovalent interactions like the halogen bonding. The computational design and systematic investigation of supramolecular structures using halogen bonds with the potential to bind metal ions is also an area of interest in Parra’s research.
The nature and strength of noncovalent interactions are examined using Molecular orbital and density functional theory and by means of descriptors based on the Quantum Theory of Atoms in Molecules, QTAIM, and the Natural Bond Orbital, NBO, analyses among other tools.
Teaching
- General Chemistry
- Organic Chemistry
- Physical Chemistry
- Computational Chemistry
- Inorganic Chemistry
Related documents
Research Interests
- computational chemistry
- halogen bonding
- teaching and learning
- hydrogen bonding
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Insightful correlations between quantum theory of atoms in molecules parameters and the relative strength of noncovalent interactions
Parra, R. D., Jan 2025, Theoretical and Computational Chemistry. Elsevier B.V., p. 63-103 41 p. (Theoretical and Computational Chemistry; vol. 24).Research output: Chapter in Book/Report/Conference proceeding › Chapter
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Alkali Metal-Ion Binding by a Model Macrocycle Containing a C-I···N Halogen Bonded Network: A DFT Study of C-I···M+ and N···M+ Binding Interactions, M+ = Li+, Na+, K+, and Rb+
Parra, R. D., Jun 2024, In: Inorganics. 12, 6, 161.Research output: Contribution to journal › Article › peer-review
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A Model Halogen-Bonded Network as a Potential Tube-like Host for Li+: A DFT Study
Parra, R. D., Jan 2024, In: Inorganics. 12, 1, 16.Research output: Contribution to journal › Article › peer-review
Open Access -
Cooperativity and halonium transfer in the ternary NCI···CH3I···-CN halogen-bonded complex: An ab initio gas phase study
Parra, R. D., Nov 2024, In: Journal of molecular modeling. 30, 11, p. 363 363.Research output: Contribution to journal › Article › peer-review
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Bracelet-like Complexes of Lithium Fluoride with Aromatic Tetraamides, and Their Potential for LiF-Mediated Self-Assembly: A DFT Study
Parra, R. D., Jun 2023, In: Molecules (Basel, Switzerland). 28, 12, 4812.Research output: Contribution to journal › Article › peer-review
Open Access
Press/Media
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Research Study Findings from DePaul University Update Understanding of Inorganic Chemistry (A Model Halogen-Bonded Network as a Potential Tube-like Host for Li+: A DFT Study)
2/12/24
1 item of Media coverage
Press/Media: Research
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DePaul University Researcher Details Research in Nanotubes (Hydrogen-Bond-Driven Peptide Nanotube Formation: A DFT Study)
9/11/23
1 item of Media coverage
Press/Media: Research
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