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Related Experiment Video

Updated: Aug 3, 2025

Microfluidic Chips Controlled with Elastomeric Microvalve Arrays
18:11

Microfluidic Chips Controlled with Elastomeric Microvalve Arrays

Published on: October 1, 2007

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Programmable microfluidics for dynamic multiband camouflage.

Chunzao Feng1, Mingran Mao1, Xiaohui Zhang1

  • 1MOE Key Laboratory of Hydraulic Machinery Transients, School of Power and Mechanical Engineering, Wuhan University, Wuhan, 430072 Hubei China.

Microsystems & Nanoengineering
|April 10, 2023
PubMed
Summary
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This study introduces a programmable microfluidic strategy for advanced multiband camouflage. This innovative approach enables dynamic surface reflectance adjustment for seamless blending into diverse visible and infrared backgrounds.

Area of Science:

  • Materials Science
  • Optics
  • Nanotechnology

Background:

  • Multiband camouflage across visible and infrared spectra is difficult due to broad bandwidth requirements.
  • Existing camouflage technologies struggle with the diverse regulation demands of different spectral regions.

Purpose of the Study:

  • To develop a programmable microfluidic strategy for achieving dynamic multiband camouflage.
  • To demonstrate a system capable of manipulating both visible and infrared light for adaptive optical surfaces.

Main Methods:

  • Utilized dye molecules in layered fluids to control visible light manipulation.
  • Employed infrared-semitransparent solvents for infrared light modulation.
  • Integrated three primary fluid inputs for programmable control over optical properties.
Keywords:
Nanoscience and technologyOptical materials and structures

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Related Experiment Videos

Last Updated: Aug 3, 2025

Microfluidic Chips Controlled with Elastomeric Microvalve Arrays
18:11

Microfluidic Chips Controlled with Elastomeric Microvalve Arrays

Published on: October 1, 2007

21.2K
Microfluidic Platform with Multiplexed Electronic Detection for Spatial Tracking of Particles
11:54

Microfluidic Platform with Multiplexed Electronic Detection for Spatial Tracking of Particles

Published on: March 13, 2017

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A Microfluidic Device for Studying Multiple Distinct Strains
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A Microfluidic Device for Studying Multiple Distinct Strains

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Main Results:

  • Achieved 64 chromaticity values and 8 distinct emissivity levels (0.42–0.90).
  • Demonstrated dynamic surface reflectance changes for effective background blending in both visible and infrared imaging.
  • Fabricated a textile-based microfluidic device capable of matching natural leaf colors across the full hyperspectrum.

Conclusions:

  • The programmable microfluidic strategy offers a feasible method for smart optical surfaces across a wide spectral range.
  • This approach provides broadband modulation and ease of operation for advanced camouflage applications.
  • The technology shows potential for dynamic adaptation to various environmental conditions and spectral requirements.