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Related Concept Videos

Wood Products01:21

Wood Products

233
Wood products encompass a broad range of materials crafted from wood strands, veneers, lumber, and even waste wood-like shreds, designed for both structural and nonstructural purposes. Various specialized wood products have been developed to enhance strength, durability, and versatility in building applications.
Glue-laminated wood, often referred to as glulam, combines multiple smaller pieces of dimensional lumber using adhesives to form a single, larger piece. Cross-laminated timber consists...
233

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Laminated Laser-Induced Graphene Composites.

John Tianci Li, Michael G Stanford, Weiyin Chen

  • 1Department of Engineering, San Jacinto College South, 13735 Beamer Road, Houston, Texas 77089, United States.

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|May 23, 2020
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A novel lamination method enables scalable production of laser-induced graphene (LIG) composites. This technique facilitates diverse applications, including flexible electrodes and energy harvesting devices.

Keywords:
TENGbiocompatible surfacesbiomaterialflexible devicesfunctional compositeslaminationlaser-induced grapheneroll-to-roll processingtriboelectric nanogenerators

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Area of Science:

  • Materials Science
  • Nanotechnology
  • Chemical Engineering

Background:

  • Laser-induced graphene (LIG) is a versatile porous graphene foam.
  • Compositing LIG enhances its material properties and application range.
  • Scalable manufacturing techniques are crucial for LIG commercialization.

Purpose of the Study:

  • To develop a scalable compositing method for LIG compatible with roll-to-roll processing.
  • To demonstrate the fabrication of functional, patterned, and multilayered LIG composites.
  • To showcase diverse applications enabled by the new compositing technique.

Main Methods:

  • A simple lamination method was employed for compositing LIG with thermoplastic films.
  • Multiple lamination steps were utilized to encapsulate LIG within composite structures.
  • Roll-to-roll processing compatibility was a key consideration in the method's design.

Main Results:

  • Functional, patterned, and multilayered LIG composites were successfully fabricated.
  • The lamination method proved compatible with roll-to-roll processing.
  • Demonstrated applications include flexible electrodes, triboelectric nanogenerators, antimicrobial bandages, and puncture detectors.

Conclusions:

  • The developed lamination compositing technique offers a scalable pathway for LIG material production.
  • This method enables the creation of advanced LIG composites for various technological applications.
  • The versatility of LIG composites is significantly expanded through this scalable manufacturing approach.