# Meta-Xylene-Based Diamines with Protected Benzyl Sites: Potential NCN Pincer Ligands with Tunable Steric Profiles

**Authors:** Tamina Z. Kirsch, Toren Hynes, Jason D. Masuda, Saurabh S. Chitnis

PMC · DOI: 10.3390/molecules30061331 · 2025-03-16

## TL;DR

This paper explores the synthesis and properties of new pincer ligands with methyl groups that prevent metal complex decomposition.

## Contribution

The study introduces meta-xylene-based diamines with methyl groups that offer tunable steric profiles and prevent C-H activation decomposition.

## Key findings

- Methyl groups in benzyl positions prevent the third deprotonation of NCN pincer ligands.
- Increased electron density and steric hindrance from methyl groups hinder ipso-CH proton accessibility.
- These ligands may enable metalation via C-H activation without requiring triple deprotonation.

## Abstract

Bulky NCN aryl-diamides featuring methyl groups in the benzyl positions were synthesized with the aim of creating a new class of meta-xylene-based trianionic pincer ligands where the common decomposition pathway of metal pincer complexes via C-H activation is prevented. Sterically demanding substituents on the ligands furthermore provide steric protection of the metal centre and can help prevent the dimerization of the complexes. While a double deprotonation of the ligands and the formation of a dilithium salt was straightforward, difficulties were encountered when attempting to deprotonate the ipso-CH proton on the central aryl ring to yield trianionic ligands. This stands in contrast to related pincer ligands without methyl groups in the benzylic positions. Experimental and theoretical investigations led to the conclusion that the challenges encountered when attempting the third deprotonation are likely caused by an interplay of increased electron density at the nitrogen atoms and steric hindrance. Both effects originate in the introduction of methyl groups in the benzylic positions, which make the targeted proton less accessible. These results provide further insight into the impact of methyl groups in the benzyl positions on both steric and electronic properties of NCN pincer ligands, which may find utility in coordination chemistry applications where metalation can be achieved by direct C-H activation rather than requiring triple deprotonation.

## Linked entities

- **Chemicals:** meta-xylene (PubChem CID 7929)

## Full-text entities

- **Chemicals:** nitrogen (MESH:D009584), NCN (-), Meta-Xylene (MESH:C031285), C (MESH:D002244), Diamines (MESH:D003959), metal (MESH:D008670)

## Figures

9 figures with captions in the complete paper: https://tomesphere.com/paper/PMC11945109/full.md

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Source: https://tomesphere.com/paper/PMC11945109