# Bench‐Stable Boryl Thianthrenium Dication Enables Aziridinyl Boronate Synthesis via Metal‐Free Late‐Stage Aziridination with Diverse Nitrogen Nucleophiles

**Authors:** Veerabhadra R. Vulupala, Disni Gunasekera, Nagarjun R. Mallampudi, Ramy Yousef, Yusif I. Gyasi, Gopal R. Ramidi, Ifeoluwa Adedotun, Shiqing Xu

PMC · DOI: 10.1002/anie.202520969 · 2025-12-09

## TL;DR

A new bench-stable compound enables metal-free synthesis of aziridinyl boronates using various nitrogen nucleophiles, offering a practical method for drug-like scaffold development.

## Contribution

A bench-stable boryl thianthrenium dication enables metal-free, selective aziridination with diverse nitrogen nucleophiles.

## Key findings

- The boryl thianthrenium dication allows transition-metal-free synthesis of aziridinyl boronates.
- The MIDA boryl group suppresses deborylation and promotes mono-adduct formation via a [4+2] cycloaddition pathway.
- The method is applied to late-stage drug molecule modifications and asymmetric synthesis.

## Abstract

Organoboron compounds are indispensable in modern organic synthesis and biomedical research. This study describes the synthesis of bench‐stable boryl thianthrenium dicationic compound via chemical or electrochemical thianthrenation of vinyl MIDA boronate. This unique boryl thianthrenium dication enables a transition‐metal‐free, chemo‐, and diastereoselective synthesis of aziridinyl boronates, utilizing a broad range of nitrogen nucleophiles. The method demonstrates generality, practicality, and functional group tolerance, as evidenced by its application to diverse substrates, including the late‐stage modification of drug molecules. Notably, the MIDA boryl group plays crucial roles in this approach including i) suppressing undesired deborylation, ii) promoting exclusive mono‐adduct formation via a formal [4 + 2] cycloaddition pathway, iii) directing regioselective vinyl boryl thianthrenium formation via selective deprotonation, and iv) enabling diastereoselective aziridination. The strategic significance of this approach is further highlighted through electrochemical one‐pot protocol, asymmetric synthesis using vinyl PIDA boronate, and diverse downstream transformations of aziridinyl boronates, offering new opportunities for synthetically challenging boron‐containing drug‐like scaffolds.

A bench‐stable boryl thianthrenium dication is synthesized via thianthrenation of vinyl MIDA boronate. This novel dication enables metal‐free, chemo‐, and diastereoselective late‐stage aziridination with diverse nitrogen nucleophiles. The strategic significance is further showcased by one‐pot electrochemical and asymmetric protocols and versatile downstream transformations toward synthetically challenging boron‐containing drug‐like scaffolds.

## Linked entities

- **Chemicals:** MIDA (PubChem CID 20441)

## Full-text entities

- **Chemicals:** Aziridinyl Boronate (-), boron (MESH:D001895), Metal (MESH:D008670)

## Figures

9 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12828481/full.md

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Source: https://tomesphere.com/paper/PMC12828481