PENGARUH JUMLAH LILITAN SOLENOIDA ELEKTROLISATOR TERHADAP ABSORBANSI OPTIK GRAPHENE OXIDE (GO) YANG DISINTESIS DARI BAHAN PENSIL 2B THE IMPACT OF ELECTROLYSATOR SOLENOID NUMBER OF TURN TOWARD GRAPHENE OXIDE (GO) OPTIC ABSORBANCE SYNTHESIZED FROM PENCIL 2B MATERIAL
Rita Prasetyowati, , Indonesia
Abstract
Abstrak
Penelitian ini bertujuan untuk 1) mensintesis graphene oxide dari bahan pensil 2B
menggunakan metode elektrolisis dengan kombinasi medan magnet dari solenoida, 2) mengetahui
pengaruh solenoida terhadap sintesis graphene oxide menggunakan metode elektrolisis, dan 3)
mengetahui pengaruh variasi jumlah lilitan solenoida terhadap spektrum absorbansi optik graphene
oxide dari bahan pensil 2B yang disintesis menggunakan metode elektrolisis. Penelitian ini dilakukan
dengan mensintesis material graphene oxide menggunakan metode elektrolisis dengan kombinasi
medan magnet dari solenoida. Solenoida yang dikombinasikan pada proses elektrolisis meliputi
solenoida dengan jumlah lilitan 500, 1000, dan 1500. Larutan elektrolit yang digunakan adalah asam
sulfat H2SO4 0,5 M dan KOH 30%. Sedangkan elektroda yang digunakan batang grafit pensil 2B
sebagai anoda dan platina sebagai katoda. Hasil yang diperoleh dari metode elektrolisis kemudian
difiltrasi menggunakan pompa filtrasi vakum untuk menghasilkan graphite oxide. Graphite oxide
kemudian melewati proses lebih lanjut untuk menghasilkan graphene oxide. Proses tersebut
diantarannya pendispersian dalam larutan DMF, ultrasonifikasi, dan sentrifugasi. Pengujian
karakterisasi graphene oxide menggunakan spektrofotometer UV-Vis. Hasil penelitian menujukkan
bahwa: 1) telah berhasil disintesis material grapheme oxide dengan metode elektrolisis yang
dikarakterisasi menggunakan uji spektrofometer UV-Vis, 2) pengaruh solenoida terhadap sintesis
graphene oxide adalah menimbulkan panas yang dapat meningkatkan suhu elektrolisis, dimana suhu
ini dapat mempercepat terkikisnya lembaran-lembaran graphene dari batang grafit, dan 3) dari hasil
UV-Vis sampel graphene oxide, semakin banyak jumlah lilitan maka nilai absorbansi absolut pada
puncak pertama semakin naik. Hal ini menunjukkan bahwa adanya kombinasi medan magnet
solenoida selain memberikan pengaruh suhu pada saat elektrolisis, yaitu dapat mempengaruhi nilai
absorbansi.
Kata-kata Kunci: elektrolisis, graphene oxide, DMF, UV-Vis
Abstract
The aims of this research are 1) to synthesize graphene oxide of pencil 2B material using the
electrolysis method that is combined with magnetic field of solenoid, 2) to know the impact of the
solenoid to the synthesis of graphene oxide using electrolysis method, and 3) to know the impact of
variation of solenoid number of turn toward the spectrum of graphene oxide optic absorbance
obtained from pencil 2B material that is synthesized using electrolysis method. This research was
done by synthesizing the material of graphene oxide using electrolysis method that was combined with
magnetic field of solenoid. The combinations of solenoid used in this process were solenoid with the
total number of turn of 500, 1000 and 1500. Solution electrolyte used were H2SO4 0,5 M and KOH
30%. The electrodes used were graphite stick of pencil 2B as anode and platinum as the cathode. The
product of the electrolysis method was filtered using vacuum filtration pump to produce graphite
oxide. Then, graphite oxide went through the next processes to produce graphene oxide. The
processes included dispersion in DMF solution, ultrasonification, and centrifuge. The examination of
graphene oxide characterization was done using UV-Vis spectrophotometer. The results of this
research show that: 1) the material of graphene oxide is successfully synthesized using electrolysis
method characterized by UV-Vis spectrophotometer examination, 2) the impact of solenoid toward
graphene oxide synthesis causes heat that can increase the electrolysis temperature where it can
accelerate the exfoliation of graphene layers of graphite stick, and 3) the result of UV-Vis using
graphene oxide as the sample shows that the greater the number of turn the greater the absorbance
absolute proportion in the first peak. Thus, it shows that the combination of magnetic field of solenoid
not only influences the temperature on the process of electrolyzing but also affects the absorbance
proportion.
Keywords: electrolysis, graphene oxide, DMF, UV-Vis
Full Text:
PDFDOI: https://doi.org/10.21831/fisika%20-%20s1.v5i4.1839
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