Telah dilakukan sintesis dan karakterisasi lapisan tipis opal menggunakan metode deposisi horizontal dengan penambahan frekuensi vibrasi. Sintesis dilakukan pada suhu ruang dengan variasi frekuensi vibrasi 75 Hz, 200 Hz, 300 Hz, dan 400 Hz menggunakan speaker dalam keadaan volume tetap. Karakterisasi dilakukan menggunakan Mikroskop Optik, SEM (Scanning Electron Microscopy) dan Spektrofotometer UV-Vis. Hasil mikroskop optik menunjukkan permukaan sampel dengan frekuensi vibrasi rendah lebih homogen dan tebal dibandingkan frekuensi vibrasi tinggi. Hasil SEM menunjukkan lapisan multilayer terbentuk pada semua sampel. Spektrum absobsi spektrofotometer UV-Vis menunjukkan nilai absorbansi maksimum tertinggi pada panjang gelombang 588 nm dengan nilai absorbansi 0,2. Semakin tinggi frekuensi vibrasi yang digunakan, semakin kecil nilai absorbansi dan nilai FWHM.

Thin opal films have been synthesized using horizontal deposition method modified applying the addition at frequency vibration. Synthesizing was carried out with at room temperature with frequency vibration of 75, 200, 300, and 400 Hz. Characterization was carried of using optical microscope, SEM (Scanning Electron Microscopy) and UV-Vis Spectrophotometer. Characterization with optical microscope shows that small frequency vibration thickner homogenity of opal sample. SEM show that multilayer layer is all sample deposition with frequency vibration 75 Hz, 200 Hz, 300 Hz and 400 Hz. The UV-Vis spectra show that the highest maximum absorbance of 0,2 at wavelength of 588 nm for frequency vibration of 75 Hz. The higher the vibration speed used, the smaller the maximum absorbance value and the smaller the FWHM value.

Bagad, S., Optical Fiber Communication. Technical Publications. Pune, 2008.

Das, Y., Duraina, EM., Velev, OD., Gatabi, JR., dan Beall, GW., Reduction of defects in self-assembling colloidal monolayer via surface modifiers and periodic mechanical vibration, Surface & Coatings Technology, 319, 353-358, 2017.

Irwanda, C., Pengaruh Frekuensi Vibrasi Terhadap Kualitas Lapisan Tipis Opal yang disintesis dengan Metode Deposisi Horizontal, Skripsi, Jurusan Fisika, Universitas Andalas, 2018.

Joannopoulos, JD., Johnson, SG., Winn. JN., and Meade, RD., Photonic

Crystals Molding the Flow of Light. Princeton University Press. New Jersey, 2008.

Marlow, F., Muldarisnur, Sharifi, P., Brinkmann, R., Mendive, C., Opale: Status and Perspektiven: Angewandte Chemie. 121:6328 – 6351, 2009.

Míguez, H., Meseguer, F., López, C., Blanco, I., Moya, JS., Requena, J., Mifsud, A., dan FornØs, V., Control of the Photonic Crystal Properties of fcc-Packed Submicrometer SiO2 Spheres by Sintering, Advanced Materials, 10, 480-483, 1998.

Muldarisnur, Optimasi celah pita optik opal dan core-shell opal, Jurnal Ilmu Fisika, 1979-4657, 2016.

Muldarisnur dan Marlow, F., Opal Films Made by the Capillary Deposition Method: Crystal Orientation and Defects, Journal of Physical Chemistry, 115, 414–418, 2011.