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Literature DB >> 25167010

Molecular model for light-driven spiral mass transport in azopolymer films.

Antonio Ambrosio¹, Pasqualino Maddalena², Lorenzo Marrucci².

Abstract

Azopolymer films exposed to nonuniform illumination exhibit a phenomenon of light-induced mass transport, leading to the formation of permanent relief patterns on the film surface. Its underlying microscopic mechanism remains unclear, despite many years of research effort. Here we introduce a model of the mass migration process based on anisotropic light-driven molecular diffusion. A key ingredient of our model is an enhanced molecular diffusion in proximity of the free polymer surface, which is essential for explaining, in particular, the recently observed spiral-shaped reliefs resulting from vortex-beam illumination.

Entities: Chemical

Year: 2013 PMID： 25167010 DOI： 10.1103/PhysRevLett.110.146102

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

7 in total

Molecular model for light-driven spiral mass transport in azopolymer films.

1. Instability-induced pattern formation of photoactivated functional polymers.

2. Reconfigurable elastomeric graded-index optical elements controlled by light.

3. Computer-generated holograms for complex surface reliefs on azopolymer films.

4. Directional mass transfer of azo molecular glass microsphere induced by polarized light in aqueous immersion media.

5. Intermixed Time-Dependent Self-Focusing and Defocusing Nonlinearities in Polymer Solutions.

6. Comparative study of photoinduced surface-relief-gratings on azo polymer and azo molecular glass films.

7. Thermocapillary Marangoni Flows in Azopolymers.