The preparation and Investigation of Electroless Copper Deposited Polyacrylontrile (PAN) Nano Composites for EMI ShieldingThe preparation

• Main Authors: Chih-Wei Hung, 洪志緯
• Other Authors: Chi-Yuan Huang
• Format: Others
• Language: en_US
• Published: 2005
• Online Access: http://ndltd.ncl.edu.tw/handle/94776589219422826422

碩士 === 大同大學 === 材料工程研究所 === 93 === In this investigation, the electroless plating method was used to plate the Cu31S16 and Cu2-xS on the surface and inner of the polyacrylontrile (PAN) for electromagnetic interference (EMI) shielding. In this plating procedure, the PAN film was swollen before electroless plating without sensitizing and activating pretreatment. Effects of operating parameters, cupric ion concentration and swelling pretreatment on the EMI (Electromagnetic Interference) shielding effectiveness (SE) were investigated. The EMI SE, surface morphology, cross section morphology, particles size inner the substrate, element of the layer and inner the substrate, thermal properties and antibacterial character of nano polymeric composites were detected by EMI, FE-SEM, HP-XRD, HR-TEM with EDX, EDS, DSC, AFM and antibacterial test analyzer, respectively. Experimental results revealed that the EMI shielding effectiveness of Cu31S16-PAN composites reached 18~20 dB when the plating temperature was 95℃ and plating time was 1 hour with cupric ion 0.48M, However, the EMI shielding effectiveness of composite reached 30~35 dB the PAN was pre-swelled before plating. HP-XRD analysis shows that the Cu31S16 was deposited on the PAN surface after the electroless copper plating procedure. In addition, AFM also shows that the Cu31S16 deposited on the PAN surface obviously. The surface morphology of Cu31S16-PAN and Cu31S16-SPAN were studied by FE-SEM. The grains shapes were likeness irregular and sharp on the substrate surface and the most thickness of the plating layer was about 200 nm. HR-TEM shows that the particles size of Cu2-xS compound distributed from 6 to 30 nm inner the SPAN substrate and the main particles size were about 15 to 20 nm. These nano polymeric composites possessed antibacterial character.