Pada penelitian ini dibuat nanofiber PVDF kopolimer dengan metode electrospinning dan nanopartikel karbon aktif dengan metode high energy milling. PVDF kopolimer dibuat dalam konsentrasi 24% yang dilarutkan dalam DMAC (N,N-Dimethylacetamide), kemudian disintesis dengan electrospinning pada kondisi optimum laju alir 0,004 mL/menit, tegangan 22 kV, dan jarak spinneret - kolektor 15 cm. Pembuatan nanopartikel karbon aktif dilakukan dengan metode high energy milling selama 35 jam kemudian di aktivasi secara kimia dengan aktivator KOH. Pelapisan nanofiber PVDF kopolimer dengan nanopartikel karbon aktif-kitosan dilakukan dengan metode perendaman dengan tiga variasi waktu perendaman yaitu 0 jam (tanpa pelapisan), 6 jam (6 jam x 1 kali pelapisan) dan 6 jam (6 jam x 3 kali pelapisan). Karakteristik nanofiber PVDF kopolimer dengan karbon aktif-kitosan masing-masing dikarakterisasi dengan mikroskop optik sebagai karakterisasi awal nanopartikel dan nanofiber, SEM (Scanning Electron Microscope) untuk analisa morfologi, FTIR ( Fourier Transform Infrared) untuk analisa gugus fungsi, sudut kontak untuk analisa sifat hidrofobik dan hidrofilik nanofiber dan analisa spreading time untuk mengetahui lamanya waktu yang dibutuhkan zat cair untuk sepenuhnya membasahi nanofiber (totally wetting). Dari hasil SEM didapatkan diameter rata-rata nanofiber PVDF kopolimer 24% sebelum pelapisan yaitu 764,5 nm, setelah pelapisan 6 jam (6 jam x 1 kali pelapisan) 771,5 nm dan setelah pelapisan 6 jam (2 jam x 3 kali pelapisan) yaitu 829,71 nm. Dari hasil analisis sudut kontak untuk pvdf kopolimer sebesar 119.750, setelah pelapisan 6 jam (6 jam x 1 kali pelapisan) sebesar 115.360 dan setelah pelapisan 6 jam (2 jam x 3 kali pelapisan) sebesar 111.170. Kata Kunci: Nanofiber PVDF kopolimer; nanopartikel karbon aktif; electrospinning, high energy milling; pelapisan.

In this research, nanofiber Co-PVDF is prepared by elecrospinning technique and activated carbon nanoparticles composites are synthesized by high energy milling method. Copolymer PVDF of 24% concentration was dissolved in DMAC (N,N-Dimethylacetamide); and continued by preparing the PVDF nanofibre through electrospinning technique. The optimum conditions of the processes were as follow; the flow rate was 0,004 mL/ minute, the voltage was 22 kV, and the spinneret distance to collector was 15 cm. The preparation of activated carbon nanoparticle was using high energy milling method for 35 hours in which previously activated by KOH. The coating nanofiber Co-PVDF using activated carbon-chitosan was done by dip coating method or immersion applied in three variations: 0 hour (no coating), 6 hours (single coating) and 6 hours (three consecutive coating). The characterization of nanofiber Co-PVDF and activated carbon-chitosan composites was conducted using SEM (Scanning Electron Microscope) for morphological analysis and FTIR (Fourier Transform Infrared) for functional group analysis. The contact angle and spreading time was performed to analyze the hydrophobicity or hydrophilicity of the nanofibre and the length of time to take for liquids to complete wetting the nanofibre respectively. SEM results show the average diameter of nanofiber Co-PVDF 24% is 764.5 nm and after 6 hours coating is 771.5 nm. After three consecutive coating the diameter of CoPVDF increases to 829.71 nm. The water contact angle analysis shows Co-PVDF nanofiber is 119.75o and after coating for 6 hours (single coating) is 115.36o and after coating for 6 hours (three-time coating) is 111.17o. Keywords: Nanofiber Co-PVDF; activated carbon nanoparticle; electrospinning, high energy milling; coating.

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