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Research of Ferric Ion Regulation on a Polyimide/C-MXene Microcellular Composite Film
Abstract
This paper established a new kind of polyimide/C-MXene composite films with a microcellular structure for electromagnetic interference shielding through solution mixing and liquid phase separation methods. Polyimide was used as the resin material, Ti3C2Tx MXene was used as the electromagnetic wave-shielding medium, l-citrulline was used as the surface modification agent, ferric trichloride (especially the ferric ion) was used as the cross-linking agent between the polyimide and modified C-MXene, and a microcell was used as the shielding structure. By adjusting the content of ferric ions, the foam structure, mechanical properties, thermal conductivity, and electromagnetic interference shielding efficiency of the polyimide/C-MXene microcellular composite film could be controlled. The higher the ferric ion content, the smaller the foam size and the higher the electromagnetic interference shielding efficiency. With increasing ferric ion content, the tensile strength and Young’s modulus appeared to first increase and then decrease; when the ferric ion content was 0.8 wt %, the tensile strength and Young’s modulus reached their maximum values, which were 10.06 and 325.29 MPa, respectively. In addition, with increasing ferric ion content, the thermal insulation showed first decreasing and then increasing tendency; the lowest thermal conductivity was 0.17 W/(m·K) when the ferric ion content was 0.8 wt %- Text
- Journal contribution
- Biophysics
- Biochemistry
- Medicine
- Genetics
- Biotechnology
- Space Science
- Biological Sciences not elsewhere classified
- Chemical Sciences not elsewhere classified
- Physical Sciences not elsewhere classified
- 8 wt %.
- 8 wt %,
- 17 w /(
- surface modification agent
- 3 </ sub
- 2 </ sub
- ferric ion regulation
- mxene composite films
- lowest thermal conductivity
- electromagnetic interference shielding
- ferric ion content
- ferric ion
- thermal conductivity
- linking agent
- electromagnetic wave
- ferric trichloride
- ferric ions
- shielding structure
- shielding medium
- >< sub
- · k
- young ’
- tensile strength
- solution mixing
- resin material
- paper established
- new kind
- modulus reached
- modulus appeared
- microcellular structure
- mechanical properties
- maximum values
- increasing tendency
- foam structure
- foam size
- first increase
- 29 mpa