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Synthesis of Halogen Bond Donor Site-Introduced Functional Monomers via Wittig Reaction of Perfluorohalogenated Benzaldehydes: Toward Digitalization as Reliable Strategy in Small Molecule Synthesis

22 June 2023, Version 2
Working Paper
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

The Wittig reaction of perfluorohalobenzaldehydes was systematically studied to synthesize 2,3,5,6-tetrafluoro-4-halostyrene (TFXS) as functional monomers bearing halogen bond donor sites. The reaction proceeded efficiently in tetrahydrofuran using 1,1,3,3-tetramethylguanidine as the organic base. Correlation analysis quantitatively identified three key factors required to obtain TFXS in reasonable yields. The present approach not only contributes to the study of halogen bond-based functional molecules but also presents digitalization as a potential strategy in small molecule synthesis.

Supplementary materials

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Title
Supporting Information
Description
1. General information 2. Synthesis of 2,3,5,6-tetrafluoro-4-halobenzaldehydes 3. Synthesis and characterization of 2.3.5.6-tetrafluoro-4-halostyrenes 4. Initial study of Wittig reaction 5. DFT calculations 6. Correlation analyses 7. References 8. NMR spectra 9. Cartesian coordinates 10. Datasets for correlation analysis
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Now Published

Synthesis of Halogen-Bond-Donor-Site-Introduced Functional Monomers through Wittig Reaction of Perfluorohalogenated Benzaldehydes: Toward Digitalization as Reliable Strategy in Small-Molecule Synthesis [opens in a new tab]
Norie Momiyama, Tatsuaki Hori, Shuya Kakinuma, Naoya Ohtsuka, Takeshi Fujinami, Toshiyasu Suzuki journal article
Synlett , Volume 34, Issue 20
Online publication date: Aug 17, 2023

Version History

Jun 22, 2023 Version 2

Version Notes

1) The title was revised. 2) Introduction was revised. 3) Additional organic bases were examined and summarized in Table 2 and 3. 4) Correlation analysis were re-examined based on additional descriptors, and Figure 2 was revised. 5) Summary was revised based on the results of additional studies.

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The content is available under CC BY NC ND 4.0 [opens in a new tab]

DOI

10.26434/chemrxiv-2023-lcf1g-v2
D O I: 10.26434/chemrxiv-2023-lcf1g-v2 [opens in a new tab]

Author’s competing interest statement

The author(s) have declared they have no conflict of interest with regard to this content

Ethics

The author(s) have declared ethics committee/IRB approval is not relevant to this content

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