Areospace

• Polymer/graphene nanocomposites for aerospace
  A 2023 review in Carbon Trends covers graphene and GO reinforced composite materials used in aerospace structures—including epoxy, thermoplastics, and carbon fiber composites. Graphene oxide nanofillers were shown to boost tensile strength, fracture toughness, fatigue resistance, thermal stability, flame resistance, and even radiation shielding in aerospace-grade laminates (0.25–3 wt% loadings) MDPI+1.

• Industrial CFRP laminates containing graphene-related materials
  A 2020 experimental study demonstrated manufacturing aeronautical-grade carbon fiber composites with GO or rGO dispersed into an epoxy matrix via standard prepreg/autoclave processes. The resulting multiscale composites exhibited noticeable improvements in in‑plane shear strength, interlaminar shear strength (delamination resistance), flexural and tensile properties—without sacrificing producibility or quality arXiv.

• Structural supercapacitor composite
  A 2024 paper describes GO-based carbon fiber composites that serve both as load-bearing structural materials and as supercapacitors—maintaining ~99.6% capacitance retention under mechanical load, plus a tensile strength of ~139 MPa and modulus of ~8.6 GPa. While designed for energy storage integration, this architecture demonstrates that GO/carbon fiber composites can carry structural loads while sustaining functionality Springer+15.

Fuels Development

Fuel Additive

Normal Jet Fuel

Graphene-enhanced Jet Fuel 

Allkemie has tested mixing Graphene Oxide with Jet Fuel and the results are an increase of 18% in Heat Power.