Lambin, Facile and scalable fabrication of highly thermal conductive polyethylene/graphene nanocomposites by combining solid-state shear milling and FDM 3D-printing aligning methods. Yang, A molding-sintering method inspired by powder metallurgy for thermosetting resins with narrow processing window: a case study on bio-based adenine containing phthalonitrile. Hu, Phthalonitrile-based carbon foam with high specific mechanical strength and superior electromagnetic interference shielding mechanism. Hu, Polydopamine decoration on 3D graphene foam and its electromagnetic interference shielding properties. Antonietti, A one-pot hydrothermal synthesis of sulfur and nitrogen doped carbon aerogels with enhanced electrocatalytic activity for oxygen reduction reaction. Viswanathan, Electrocatalytic and supercapacitor performance of phosphorous and nitrogen co-doped porous carbons synthesized from aminated Tannins. Chen, Electrocatalytic activity of nitrogen doped carbon nanotubes with different morphologies for oxygen reduction reaction. Ling, Lightweight, multifunctional polyetherimide/graphene composite foams for shielding of electromagnetic pollution. Dai, An electrically conductive polymer composite with a co-continuous segregated structure for enhanced mechanical performance. Liu, Deposited structure design of epoxy composites with excellent electromagnetic interference shielding performance and balanced mechanical properties.
Rao, Mesoporous carbon nanomaterials as environmental adsorbents. Mu, Polydopamine decoration on 3D graphene foam and its electromagnetic interference shielding properties. Wang, Hierarchical, seamless, edge-rich nanocarbon hybrid foams for highly efficient electromagnetic-interference shielding. Hyeon, Recent progress in the synthesis of porous carbon materials. Tai, Carbon materials and their composites for electromagnetic interference shielding effectiveness in X-band. Zhang, Flexible and tunable electromagnetic meta-atom based on silver nanowire networks. Ahlbom, Exposure to electromagnetic fields and the risk of childhood leukaemia: a review. Li, Production of hierarchical porous carbon nanosheets from cheap petroleum asphalt toward lightweight and high-performance electromagnetic wave absorbents. Li, Magnetic coupling engineered porous dielectric carbon within ultralow filler loading toward tunable and high-performance microwave absorption. Meanwhile, the maximum bending stress reached 292 MPa, and the maximum compressive stress reached 143 MPa. The EMI performance of graphene/ADCN carbon composites reached 47dB (7.5wt.% graphene) with only 0.94 mm thickness. As a mechanical reinforcement phase, graphene was introduced to maintain the porous structure and improve the mechanical properties. The porous structure increases the multiple reflections and improves the EMI performance. The results show that the introduction of the dipole effect can confer improved electrical conductivity and EMI shielding properties to graphene/ADCN carbon composites. The structure, morphology, electrical conductivity, dielectric properties, EMI shielding performance, and mechanical properties were characterized. Nitrogen-doped porous graphene/adenine-containing phthalonitrile (graphene/ADCN) carbon composites with excellent mechanical properties and electromagnetic interference (EMI) shielding performance were prepared by the high-energy ball milling molding-sintering method.