# Exceptionally large “through-space” nuclear spin coupling in a 2,4,6-tri(phosphanyl)–1,3,5-triphosphabenzene

**Authors:** David C. Meier, Álvaro García-Romero, Daniel González-Pinardo, Nicholas H. Rees, Alex Lovstedt, Israel Fernández, Jose M. Goicoechea

PMC · DOI: 10.1039/d5sc07729j · Chemical Science · 2025-11-04

## TL;DR

A new compound with unusually strong nuclear spin coupling was synthesized and studied using computational methods.

## Contribution

The discovery of exceptionally large through-space nuclear spin coupling in a triphosphabenzene compound.

## Key findings

- The compound shows a 432 Hz indirect spin-spin coupling between phosphorus-31 nuclei.
- Through-space coupling can be disrupted by oxidation of phosphanyl groups with sulfur or selenium.
- Computational analysis revealed the role of orbital overlap in the coupling mechanism.

## Abstract

We describe the synthesis of a phosphanyl-functionalized 1,3,5-triphosphabenzene that exhibits remarkably large indirect spin–spin coupling (432 Hz) between phosphorus-31 nuclei. The magnitude of this coupling interaction is indicative of highly effective orbital overlap between two lone-pair type orbitals, each of which possesses significant s-orbital character. This was probed computationally using density functional theory calculations in order to deconvolute individual transmission pathways by dividing these into “through-space” and “through-bond” type interactions. The “through-space” transmission pathway can be chemically disrupted by oxidation of the pendant phosphanyl groups using either elemental sulfur or selenium. By engaging the phosphanyl s-orbitals in bonds to the chalcogen elements, the indirect interaction is perturbed, and the NMR spectra of the resulting compounds exhibit conventional “through-bond” coupling.

We describe the synthesis of a phosphanyl-functionalized 1,3,5-triphosphabenzene that exhibits remarkably large indirect spin–spin coupling (432 Hz) between phosphorus-31 nuclei.

## Linked entities

- **Chemicals:** sulfur (PubChem CID 5362487), selenium (PubChem CID 6326970)

## Full-text entities

- **Chemicals:** selenium (MESH:D012643), sulfur (MESH:D013455), phosphorus (MESH:D010758), 1,3,5-triphosphabenzene (-), chalcogen (MESH:D018011)

## Full text

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## Figures

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## References

51 references — full list in the complete paper: https://tomesphere.com/paper/PMC12603949/full.md

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Source: https://tomesphere.com/paper/PMC12603949