A. V. Nelyubin scite author profile

In the present work, a convenient and straightforward approach to the preparation of borylated amidines based on the closo-dodecaborate anion [B12H11NCCH3NHR]−, R=H, Alk, Ar was developed. This method has two stages. A nitrile derivative of the general form [B12H11NCCH3]− was obtained, using a modified technique, in the first stage. On the second stage the resulting molecular system interacted with primary amines to form the target amidine products. This approach is characterised by a simple chemical apparatus, mild conditions and high yields of the final products. The mechanism of the addition of amine to the nitrile derivative of the closo-dodecaborate anion was studied, using quantum-chemical methods. The interaction between NH3 and [B12H11NCCH3]− ammonia was chosen as an example. It was found that the structure of the transition state determines the stereo-selectivity of the process. A study of the biological properties of borylated amidine sodium salts indicated that the substances had low toxicity and could accumulate in cancer cells in significant amounts.

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Nucleophilic addition of amino acid esters to nitrilium derivatives of closo-decaborate anion

Nelyubin

Klyukin

Novikov

et al. 2021

Mendeleev Communications

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Synthesis of Substituted Derivatives of closo-Decaborate Anion with a Peptide Bond: The Way towards Designing Biologically Active Boron-Containing Compounds

Nelyubin

Klyukin

Жданов

et al. 2019

Russ. J. Inorg. Chem.

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A. V. Nelyubin

Synthesis of Nitrile Derivatives of the closo-Decaborate and closo-Dodecaborate Anions [BnHn – 1NCR]– (n = 10, 12) by a Microwave Method

Nucleophilic Addition Reaction of Secondary Amines to Acetonitrilium closo-Decaborate [2-B10H9NCCH3]–

Primary Amine Nucleophilic Addition to Nitrilium Closo-Dodecaborate [B12H11NCCH3]−: A Simple and Effective Route to the New BNCT Drug Design

Nucleophilic addition of amino acid esters to nitrilium derivatives of closo-decaborate anion

Synthesis of Substituted Derivatives of closo-Decaborate Anion with a Peptide Bond: The Way towards Designing Biologically Active Boron-Containing Compounds

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