Synthesis of silicon nanoparticle with addition of curcumin and their application for drug delivery

Raharjo, Aaron and Suwarno, Nicholas Aaron (2024) Synthesis of silicon nanoparticle with addition of curcumin and their application for drug delivery. Working Paper (Laporan Penelitian Laboratorium (FT-Kimia)). Faculty of Engineering, Surabaya. (Submitted)

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Abstract

Silicon has become one of the main resources to be researched and modified into a much efficient products for various applications. In this research, silica particle is synthesized by the bottom-up method using sugar with the addition of curcumin as reducing agent and stabilizing agent. Silicon nanoparticles synthesized through the bottom-up method using the materials such 10 ml of Tetra-Ethyl Orthosilicate (TEOS) and 0.5 grams of glucose in 100 ml of water and irradiated using microwave for 30 minutes at 70˚C. With the addition of curcumin into the variable, glucose used are instead change into 0,45 g and 0,05 g of curcumin with the rest are the same number of materials and tested at various temperatures at 50, 70, and 90˚C by microwave irradiation for 30 minutes. The most optimal conditions were found in 90˚C with the amount particles produced up to 379,4 mg. Characterization for the silicon nanoparticles were analyzed with instruments X-Ray Diffraction (XRD) to analyze the silicon’s crystallinity and particle sizes. The XRD readings shows that the sharp particle peak at 22,2327 which indicates the presence of high crystallinity silica particles along with the particle size of 0,25 nm by the Scherrer’s equation. From the many adsorptions studies the drug tested in this report will be the non-steroid anti-inflammatory drug: sodium diclofenac. Kinetics for the silica particles from the combination of curcumin and glucose (SP-GC) provides a high adsorption capacity up to 73,9% and higher adsorption capacity at 50˚C up to 77,4%. The kinetic study which displays the most fitting result for the silica nanoparticles adsorption towards sodium diclofenac is the Elovich model and Bhattacharya-Venkobachar equation model. In the release study, SP-GC tends to have a burst release up to 27.2% until 30 minutes and slows down releasing up to 84% after 5 hours and lastly continues to release slowly up 96.8% at 25 hours giving the therapeutic effect for a long time.

Item Type: Monograph (Working Paper (Laporan Penelitian Laboratorium (FT-Kimia)))
Department: S1 - Teknik Kimia
Contributors:
Contribution
Contributors
NIDN / NIDK
Email
Thesis advisor
Hartono, Sandy Budi
NIDN0726127601
UNSPECIFIED
Thesis advisor
Puspitasari, Nathania
NIDN0725119401
UNSPECIFIED
Subjects: Engineering
Engineering > Chemical Engineering
Divisions: Faculty of Engineering > Chemical Engineering Study Program
Depositing User: Aaron Raharjo
Date Deposited: 24 Jul 2024 02:29
Last Modified: 24 Jul 2024 02:29
URI: http://repository.ukwms.ac.id/id/eprint/40297

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