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Scalable Stamp Printing and Fabrication of Hemiwicking Surfaces
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Printing Multi-Layered Functional Devices Using One Stamp with Programmable Surface Energy.

Quan Liu1,2, An Li1, Kaixuan Li1

  • 1Key Laboratory of Green Printing, CAS Research/Education Center for Excellence in Molecular Sciences, Institute of Chemistry, Chinese Academy of Sciences, Beijing, 100190, P. R. China.

Advanced Materials (Deerfield Beach, Fla.)
|February 27, 2025
PubMed
Summary
This summary is machine-generated.

A novel printing strategy uses a single stamp with patterned surface energy to create diverse patterns from functional inks. This method enables versatile material deposition for advanced manufacturing applications.

Keywords:
heterogeneous wettabilityliquid manipulationmaterials patterningprinting

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Area of Science:

  • Materials Science
  • Surface Chemistry
  • Advanced Manufacturing

Background:

  • Printing technology is crucial for distributing functional materials in advanced manufacturing.
  • Current methods often require multiple stamps for varied patterns, limiting efficiency.
  • Precise control over liquid behavior on surfaces is key for patterning.

Purpose of the Study:

  • To develop a "one stamp, diverse patterns" printing strategy.
  • To achieve varied pattern deposition using a single, specially treated stamp.
  • To demonstrate the versatility of this approach in fabricating functional devices.

Main Methods:

  • Engineered a stamp with patterned surface energy via regioselective energy injection on an ultralow surface energy solid.
  • Investigated the behavior of inks with different surface tensions on the patterned stamp (Cassie and Wenzel states).
  • Utilized the controlled ink distribution for printing diverse patterns on target surfaces.

Main Results:

  • Successfully demonstrated the "one stamp, diverse patterns" printing capability.
  • Showcased the selective wetting states (Cassie/Wenzel) of inks based on surface tension.
  • Achieved printing of flexible light-emitting devices and high-density transistor arrays using the single stamp.

Conclusions:

  • Patterned surface energy on stamps enables precise liquid manipulation and diverse pattern generation.
  • This approach offers a simplified, efficient, and versatile printing methodology.
  • The findings advance functional material patterning for innovative applications in manufacturing.