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RISS 인기검색어
- 검색키워드
- 저자 : Siyi Bi (검색결과 2 건)
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Siyi Bi,Hang Zhao,Lei Hou,Yinxiang Lu 한국섬유공학회 2018 Fibers and polymers Vol.19 No.5
Co-Ni-P coatings were prepared on ramie fabric by electroless plating with addition of rare earth (RE: Ce, Pr, and Nd). The proposed ultra-low-cost and easy-operated electroless plating method involved successive steps, namely, alkali mercerization, malic acid modification, Co nanoparticles activation, and Co-Ni-P deposition. FT-IR and XPS measurements were utilized to verify the functions of modification and activation procedures. Refined effects of Ce, Pr, and Nd on the structures and morphologies of resulting Co-Ni-P coatings were demonstrated by XRD and FE-SEM measurements. Moreover, by adding tiny dose of RE into the one-pot plating solution, electroless deposition rates were substantially accelerated in all cases. With regard to the resulting fabric-based Co-Ni-P coatings obtained in the presence of RE, not only mechanical durability but also chemical stability were improved. All Co-Ni-P coated fabrics displayed admirable electromagnetic properties and high electromagnetic interference (EMI) shielding effectiveness (SE). Owing to the benefits from RE, EMI SE values of Co-Ni-P shielding fabrics were enhanced with increment of 3-11 dB ranging from 30 to 6000 MHz. Significantly, Co-Ni-P-Nd coated fabric with uniform surface morphology and outstanding corrosion resistance possessed the highest EMI SE of 42.27-66.76 dB.
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Bio-inspired Fabrication of Cu-Ni Coatings onto Mercerized Flax Fabric by Electroless Plating
Lin Zhu,Hang Zhao,Bijian Lan,Lei Hou,Siyi Bi,Yumeng Xu,Yinxiang Lu 한국섬유공학회 2020 Fibers and polymers Vol.21 No.2
This research mainly prepared a bio-friendly electromagnetic interference (EMI) shielding fabric, and discussed the influence of the grammage (i.e. 120 g/m2, 160 g/m2 and 210 g/m2, etc) of fabric substrate on the preparation of metalbased EMI shielding conductive fabric by electroless plating. A series of steps involved mercerization, dopamine (DoPA) modification, Ni0 seeding and electroless copper-nickel (Cu-Ni) plating were carried out to fabricate ideal EMI shielding fabric. The prepared Cu-Ni fabric endowed relatively high EMI shielding effectiveness (SE) (34.80-42.00 dB) ranging from 30 to 4500 MHz, which made it a huge potential in the field of wearable EMI shielding. Moreover, another discovery was that a relative higher grammage may lead to a lower total metal loading. Furthermore, Fourier transformation infrared (FTIR) spectroscopy and X-ray photoelectron spectroscopy (XPS) measurements were conducted to verify the introduction of functional groups in mercerization, modification and activation procedures. The crystalline phases and morphologies of resulting Cu-Ni coatings were characterized by X-ray diffraction (XRD) and field emission-scanning electron microscopy (FE-SEM) measurements. The atomic ratio (at.%) of Cu and Ni in the sample was determined by Energy Dispersive X-ray Spectroscopy (EDX) measurements. Overall, the Cu-Ni alloy fabric prepared in this research met the requirements of health, coating lining and EMI shielding.
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