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how LCTR® reactors can elevate your production of MoS₂ or other carbon-based materials.

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APPLICATION OVERVIEW

Enabling High-Purity Synthesis of Functional Materials Like MoS₂ Carbon

Lamina’s LCTR® technology provides a breakthrough platform for the continuous synthesis and processing of advanced functional materials such as molybdenum disulfide (MoS₂) and carbon-based nanomaterials. These materials require precise control over particle size, crystallinity, and morphology—areas where Taylor laminar flow offers significant advantages over conventional batch methods.

By eliminating dead zones and enabling uniform, high-shear mixing, the LCTR® reactor enhances reaction stability and reproducibility, even in multi-phase or high-viscosity systems. It supports consistent layering, controlled dispersion, and high-yield crystallization—making it ideal for the production of electronic-grade MoS₂, carbon coatings, and hybrid nanocomposites.

Why LCTR For 2D-Carbon Exfoliation?

  • Uniform Layer Formation
  • High Reaction Efficiency
  • Continuous Processing
  • Increased exfoliation efficiency
  • Defect-free large-area manufacturing

Applications Include:

• MoS₂ as a lubricant additive or 2D semiconductor material
• MoS₂-carbon composites for supercapacitors, sensors, and energy storage
• Carbon-coated nanomaterials for catalysts, thermal materials, and drug delivery systems
• Functional fillers in composite resins or electronic pastes

01. MoS₂

(a) SEM result: MoS₂ nanosheets exfoliated on an Anodic Aluminum Oxide (AAO) membrane
(b) TEM result of the exfoliated MoS₂ nanosheets: Selected Area Electron Diffraction (SAED) pattern of the MoS₂ nanosheet
(c) TEM result: Defect-free single crystalline structure

02. Graphene Oxide (Exfoliation)

* These research results are excerpted from the results of Dr. Woo-Seok Yang of the Electronics and Telecommunications Research Institute.

03. Graphene (Exfoliation)

ItemBatchLCTR
Production TypeNon-ContinuousContinuous
Manufacturing Yield (%)725
Manufacturing Time (h)41

04. Carbon Nano-composite (Reduction)

  • Results: Synthesis of silver particles with uniform diameter and fabrication of carbon nanocomposites.

05. Graphene/Cu nano-partice (Nanocomposite)

  • Results: Metal particles are uniformly distributed and bonded on graphene within a short period of time.