REFERENCES
- Yin, X.L.; Qian, L.; Long, L.X. Palladium-free catalytic electroless copper deposition on bamboo fabric: Preparation, morphology and electromagnetic properties. Applied Surface Science 2012, 258, 4782–4787.
- Yang, Y.L.; Gupta, M.C.; Dudley, K.L.; Lawrence, R.W. Novel carbon nanotube−polystyrene foam composites for electromagnetic interference shielding. Nano Letters 2005, 5 (11), 2131–2134.
- Njuhovic, E.; Witt, A.; Kempf, M. Influence of the composite surface structure on the peel strength of metallized carbon fibre-reinforced epoxy. Surface and Coatings Technology 2013, 232, 319–325.
- Richard, P.; Prasse, T.; Cavaille, J.Y. Reinforcement of rubbery epoxy by carbon nanofibres. Materials Science and Engineering 2003, 352 (1), 344–348.
- Guan, P.J.; Xiu, L.W.; Ya, F.; Yan, D. Preparation of tetraoxalyl ethylenediamine melamine resin grafted-carbon fibers for nano-nickel recovery from spent electroless nickel plating baths. Chemical Engineering Journal 2012, 203, 440–446.
- Chien, L.L.; Yao, L.T.; Chin, W.C. Specific and mass activity of silver nanocube and nanoparticle-based catalysts for electroless copper deposition. Electrochimica Acta 2013, 104, 185–190.
- Huang, Y.; Li, N.; Ma, Y.F.; Du, F.; Li, F.F.; He, X.B.; Lin, X.; Gao, H.J.; Chen, Y.S. The influence of single-walled carbon nanotube structure on the electromagnetic interference shielding efficiency of its epoxy composites. Carbon 2007, 45 (8), 1614–1621.
- Cui, X.Y.; Hutt, D.A.; Conway, P.P. Evolution of microstructure and electrical conductivity of electroless copper deposits on a glass substrate. Thin Solid Films 2012, 520, 6095–6099.
- Daoushb, W.M.; Lima, B.K.; Moa, C.B.; Nama, D.H.; Honga, S.H. Electrical and mechanical properties of carbon nanotube reinforced copper nanocomposites fabricated by electroless deposition process. Materials Science and Engineering A 2009, 513–514, 247–253.
- Lu, Y.X.; Liang, Q.; Xue, L.L. Palladium-free catalytic electroless copper deposition on bamboo fabric: Preparation, morphology and electromagnetic properties. Applied Surface Science 2012, 258, 4782–4787.
- Faraji, S.; Rahim, A.A.; Mohamed, N.; Sipaut, C.S. A study of electroless copper–phosphorus coatings with the addition of silicon carbide (SiC) and graphite (Cg) particles. Surface & Coatings Technology 2011, 206, 1259–1268.
- Zhao, B.; Yadian, B.L.; Li, Z.J.; Liu, P.; Zhang, Y.F. Improvement on wettability between carbon nanotubes and Sn. Materials and Manufacturing Processes 2009, 25 (1), 31–35.
- Kumar Bulasara, V.; Mahesh Babu, Ch.S.N.; Uppaluri, R. Effect of surfactants on performance of electroless plating baths for nickel-ceramic composite membrane fabrication. Surface Engineering 2012, 28 (1), 44–48.
- Liu, Q.; He, X.B.; Ren, S.B.; Zhang, C.; Liu, T.T.; Qu, X.H. Thermophysical properties and microstructure of graphite flake/copper composites processed by electroless copper coating. Journal of Alloys and Compounds 2014, 587, 255–259.