# Wrinkling‐Based Patterning and Recombinant Spider Silk‐Based Coating Technologies ‐ Toward Novel Applications

**Authors:** Martin Humenik, Ziwei Zhou, Fabian Kopsch, Andre Knapp, Ziwen Yu, Hendrik Schlicke, Thomas Scheibel, Andreas Fery

PMC · DOI: 10.1002/smll.202508468 · Small (Weinheim an Der Bergstrasse, Germany) · 2025-12-19

## TL;DR

Combining wrinkling patterns with recombinant spider silk coatings creates functional surfaces for bioelectronics, biomedical devices, and tissue engineering.

## Contribution

A novel combination of wrinkling-based patterning and recombinant spider silk coatings for advanced surface functionalities.

## Key findings

- Wrinkled patterns can be tuned for anti-biofouling and directional biomolecule templating.
- Spider silk coatings can be engineered for antifouling or cell adhesion support.
- The combination enables bioelectronics with encapsulated biomolecules and improved sensitivity.

## Abstract

Wrinkling, formed by stress‐induced energy minimization in thin polymer films, provides a reproducible method for large‐area surface patterning. The resulting nano/micro topographies allow controlled spatial organization of nanomaterials for applications in sensing, optoelectronics, photocatalysis, and soft nanofabrication. The anisotropy of these wrinkled patterns can also be tuned for anti‐biofouling or directional templating of biomolecules, which is crucial for hybrid bio‐interfaces. Complementing this, spider silk‐based surface technologies offer a flexible platform for creating biocompatible and biodegradable coatings. Recombinant spider silk protein technologies enable the modification of intrinsic protein properties (e.g., net charge) or incorporation of new functional elements (e.g., affinity peptides, enzymes). Spider silk‐based coatings have been engineered for antifouling activities or to support cell adhesion and growth. In terms of biomedical applications, enhanced implant performance is feasible as well as tailored tissue engineering approaches. The synergistic combination of wrinkling and recombinant spider silk technology presents exciting opportunities for creation of surfaces with enhanced or new functionalities. For instance, spider silk wrinkled coatings can provide benefit for bioelectronics by encapsulating sensitive biomolecules within a topographically defined matrix, increasing sensitivity and specificity. This approach also offers innovations in biomedical device coatings, tissue engineering platforms (e.g., for neuronal or muscle tissue), large‐scale bio‐selective filtration, and switchable sustainable adhesives.

The synergistic combination of wrinkling and recombinant spider silk technology creates surfaces with enhanced functionalities, unlocking exciting new possibilities. This approach promises innovations in bioelectronics, biomedical device coatings, and tissue engineering, as well as new platforms for large‐scale filtration and sustainable adhesives.

## Full-text entities

- **Chemicals:** polymer (MESH:D011108)

## Full text

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## Figures

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## References

166 references — full list in the complete paper: https://tomesphere.com/paper/PMC12802535/full.md

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Source: https://tomesphere.com/paper/PMC12802535