# Unlocking photochemical tunability in functionalised bridged-isoindigo molecular motors

**Authors:** Carlijn L. F. van Beek, Ainoa Guinart, Yusuf Qutbuddin, Ben L. Feringa

PMC · DOI: 10.1039/d5sc08776g · 2026-01-19

## TL;DR

Researchers developed new dual-rotor molecular motors that can be tuned with light, offering potential for advanced molecular systems.

## Contribution

The study introduces six new dual-rotor motors with tunable photochemical properties and demonstrates their potential for adaptive systems.

## Key findings

- Functionalised motors retained visible-light addressability with modulated absorption wavelengths.
- A double metastable state was observed in light-driven molecular motors.
- Motors were successfully incorporated into lipid bilayers for light-driven membrane perturbation.

## Abstract

Artificial molecular machines enable precise control over motion on the molecular scale. Dual-rotor molecular motors offer unique opportunities for the development of responsive functional systems and molecular machines, yet remain considerably underexplored compared to single-rotor motors. Here, we report six new light-driven bridged-isoindigo-based dual motors, developed through strategic rotor substitution, to investigate the tunability of their rotational behaviour. While thermal processes were largely unaffected by rotor substitution, the photochemical properties were significantly influenced. All functionalised motors retained visible-light addressability, with substitution enabling additional modulation of their absorption wavelengths. Rotor functionalisation also impacted the photostationary state composition and the photochemical accessibility of specific intermediates. Notably, we made the unique observation of a photochemical generated double metastable state in light-driven molecular motors, highlighting the potential for advanced control over dual motor function. The synthetic versatility of the bridged-isoindigo scaffold was further demonstrated by the successful post-functionalisation and membrane incorporation of a representative motor, underscoring its promise for future applications in adaptive molecular systems.

Rotor-functionalised bridged-isoindigo motors exhibit tuneable absorption and photochemical behaviour without altering thermal kinetics. Incorporation into lipid bilayers enables light-driven membrane perturbation.

## Full-text entities

- **Chemicals:** bridged-isoindigo (-)

## Figures

9 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12813872/full.md

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Source: https://tomesphere.com/paper/PMC12813872