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Dispersion-controlled docking preference: multi-spectroscopic study on complexes of dibenzofuran with alcohols and water

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2019
RSC Publ. Cambridge

Physical chemistry, chemical physics 21(29), 16032 - 16046 () [10.1039/C9CP02635E]
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Abstract: The structural preferences within a series of dibenzofuran–solvent complexes have been investigated by electronic, vibrational, and rotational spectroscopic methods probing supersonic jet expansions. The experimental study is accompanied by a detailed theoretical analysis including dispersion-corrected density functional theory, symmetry adapted perturbation theory, as well as coupled cluster approaches. The complementary, multi-spectroscopic results reveal a preferred OH⋯O structure for the smallest complex of dibenzofuran–water, whereas for the methanol complex an OH⋯π isomer is simultaneously observed. For the largest complex, dibenzofuran–tert-butyl alcohol, only a π-bound structure is found. These comprehensive investigations show that a completely inverse trend regarding the docking preference is observed by comparing the present results with the ones for analogous diphenyl ether complexes. This can be rationalized on the basis of the planarity/non-planarity and rigidity/flexibility of the different systems, providing valuable insight into the interplay between different non-covalent interactions. This analysis is a further step towards a quantitative description of very delicate energetic balances with the overall goal of yielding reliable structural predictions for non-covalently bound systems.

Classification:
Contributing Institute(s):
  1. Spectroscopy of molecular processes (FS-SMP)
Research Program(s):
  1. 6211 - Extreme States of Matter: From Cold Ions to Hot Plasmas (POF3-621) (POF3-621)
Experiment(s):
  1. No specific instrument

Appears in the scientific report 2019
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Medline ; Creative Commons Attribution CC BY 3.0 ; OpenAccess ; Allianz-Lizenz / DFG ; Clarivate Analytics Master Journal List ; Current Contents - Physical, Chemical and Earth Sciences ; IF < 5 ; JCR ; NCBI Molecular Biology Database ; National-Konsortium ; NationallizenzNationallizenz ; SCOPUS ; Science Citation Index ; Science Citation Index Expanded ; Web of Science Core Collection
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 Record created 2019-08-13, last modified 2025-07-16
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