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Spatiotemporal modulation of surface texture for information encoding and object manipulation

X Y Yang, Jay Sim, Ruike Renee Zhao
June 22, 2026
Published Date

Research Abstract & Technology Focus

Dynamically tunable surface textures offer a powerful route to spatiotemporally regulate surface and interfacial properties, enabling emerging applications ranging from adaptive optics to soft robotic manipulation. However, achieving programmable, reversible, and spatiotemporal modulation of surface texture remains a fundamental challenge. Here, we present a photothermal-actuated liquid crystal elastomer bilayer that enables reversible, on-demand spatiotemporal modulation of surface textures through dynamically emerging and propagating wrinkles. Using direct laser writing or projected light fields, programmable and self-erasable wrinkle patterns are generated for dynamic information encoding. This spatiotemporal wrinkling enables object manipulation across diverse geometries, including uphill transport and navigation along predesigned paths. By coupling wrinkle-driven motion with thermally reversible dynamic bonding, the bilayer further enables assembly and disassembly of dynamic polymers, as well as cargo transportation. This work demonstrates spatiotemporally programmable wrinkling as a powerful mechanism for dynamic modulation of surface textures, establishing a versatile platform for multifunctional and reconfigurable smart surfaces. Dynamic control of surface textures is limited by static or coarse-patterned approaches, restricting their application in programmable object manipulation and information encoding. This study achieved reversible, spatiotemporally programmable surface wrinkling on a photothermal liquid crystal elastomer bilayer, enabling precise, on-demand surface patterning, object propulsion, self-erasing information encoding, and reversible assembly processes through localized light stimuli.
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Correlated Market Trend: Artificial Intelligence

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Frequently Asked Questions (FAQ)

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What is the core focus of the research titled 'Spatiotemporal modulation of surface texture for information encoding and object manipulation'?

This literature focuses on: Dynamically tunable surface textures offer a powerful route to spatiotemporally regulate surface and interfacial properties, enabling emerging applications ranging from adaptive optics to soft robotic manipulation. However, achieving programmable,...

Are there commercial applications of 'Spatiotemporal modulation of surface texture for information encoding and object manipulation' in GitHub?

Yes, highly correlated activity was mapped. An entry titled 'Featured Proposal:Supervisory Interface for Long-Horizon Interaction-Empirical Evidence from 180-Day LSO Trace' discusses this: This detailed proposal identifies critical limitations in `AttnRes` for 'long-horizon human–AI interactions,' specifically 'attention saturation' a...

Are there commercial applications of 'Spatiotemporal modulation of surface texture for information encoding and object manipulation' in Product Hunt?

Yes, highly correlated activity was mapped. An entry titled 'ScreenSmooth' discusses this: Beautiful Screen Recordings in minutes

How is the concept of 'Spatiotemporal modulation of surface texture for information encoding and object manipulation' being discussed by engineers on Hacker News?

Yes, highly correlated activity was mapped. An entry titled 'Show HN: M. C. Escher spiral in WebGL inspired by 3Blue1Brown' discusses this: This project is primarily a technical demonstration and personal exercise in computer graphics, specifically WebGL. It showcases the developer's ab...

What other academic literature is closely related to 'Spatiotemporal modulation of surface texture for information encoding and object manipulation'?

Yes, highly correlated activity was mapped. An entry titled 'SuGaR: Surface-Aligned Gaussian Splatting for Efficient 3D Mesh Reconstruction and High-Quality Mesh Rendering' discusses this: No description provided.

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