DOI: https://doi.org/10.14710/reaktor.17.4.215-220

Encapsulation Rutin with Chitosan-NATPP Using Coaservation Method

*Bambang Cahyono  -  Laboratorium Kimia Organik, Departemen Kimia, Fakultas Sains dan Matematika, Universitas Diponegoro Jl. Prof. Sudharto SH, Tembalang, Semarang 50275 (Telp/fax 024-76480824), Indonesia
Meiny Suzery  -  Laboratorium Kimia Organik, Departemen Kimia, Fakultas Sains dan Matematika, Universitas Diponegoro Jl. Prof. Sudharto SH, Tembalang, Semarang 50275 (Telp/fax 024-76480824), Indonesia
H Hadiyanto  -  Teknik Kimia, Fakultas Teknik, Universitas Diponegoro Jl. Prof. Sudharto SH, Tembalang,
Sestri Bela Pratiwi  -  Laboratorium Kimia Organik, Departemen Kimia, Fakultas Sains dan Matematika, Universitas Diponegoro Jl. Prof. Sudharto SH, Tembalang, Semarang 50275 (Telp/fax 024-76480824)
Received: 12 Jan 2018; Published: 19 Feb 2018.
Open Access Copyright (c) 2018 Reaktor under http://creativecommons.org/licenses/by-nc-sa/4.0.

Citation Format:
Abstract

Abstract

 

This study aims to make microparticles of rutin compounds at various concentrations with NaTPP-chitosan as matrix. Encapsulation is done by coaservation method. The success of encapsulation was identified by UV-Vis spectrophotometry, Fourier Transform Infra-Red (FTIR) spectroscopy and Scanning electron microscopy (SEM). Based on UV-Vis spectrophotometry analysis, the efficiency of encapsulation (EE) and loading capacity (LC) was obtained at 62,43-94,36 and 1,73% -32,1%, at rutine concentration 0,625-11,25 mM. The success of rutin encapsulation is demonstrated by the rutin characteristics of the product seen with the presence of peaks of aromatic rings, indicating the presence of rutin compounds contained in the chitosan matrix. SEM analysis shows rough and porous surface morphology in microcapsules. The rutin release profile of the microcapsules is described as two phase processes, burst release at the initial discharge in the first 30 min followed by slow release. At the highest LC (11.25 mM concentration), it provides greater discharge rates for both synthetic fluid simulations 77.53 ± 3.59% and 78.76 ± 4.00% after 3h of discharge. The controlled release data showed high discharge rates at acidic pH than alkaline pH.

 

Keywords: Rutin, encapsulation, citosan, coaservation

Fulltext View|Download

Article Metrics:

Article Info
Section: Research Article
Language : EN
Recent articles
Front Mattter Vol 17 No. 4 December 2017 Identification of Compounds Released During Pyrolysis of Palm Kernel Shell (PKS) Using Pyrolysis-GC/MS THE EFFECTS OF WATER ADDITION AND STEAMING DURATION ON STARCH COMPOSITION OF WHEAT POLLARD A Study of Compost as an Adsorbent for Congo Red Dye Removal Process Back Matter Vol 17 No. 04 December 2017 More recent articles
Most cited articles
KINETIKA REAKSI HIDROLISIS KARAKTERISTIK FISIKOKIMIA PATI SAGU HASIL PENGERINGAN SECARA FLUIDISASI MENGGUNAKAN ALAT PENGERING CROSS FLOW FLUIDIZED BED BERTENAGA SURYA DAN BIOMASSA Optimasi Pembuatan Kitosan Dari Kitin Limbah Cangkang Rajungan (Portunus pelagicus) Untuk Adsorben Ion Logam Merkuri Studi Penggunaan Katalis Tembaga Molybdenum Oksida Berpenyangga Silica (CuMoO3/SiO2) Untuk Oksidasi Metana Menjadi Methanol Dan Formaldehida Lactic Acid Production From Cocoa Pod Husk by Studying Further the Influence of Alkaloids on Fermentation Process using Lactobacillus Plantarum Bacteria More cited articles

Last update:

  1. Bottom–up nanoparticle synthesis: a review of techniques, polyphenol-based core materials, and their properties

    Rossi Indiarto, Laksmi Putri Adi Indriana, Robi Andoyo, Edy Subroto, Bambang Nurhadi. European Food Research and Technology, 248 (1), 2022. doi: 10.1007/s00217-021-03867-y

  2. Encapsulation of hyptolide coated alginate, chitosan, and alginate-chitosan

    Meiny Suzery, Bambang Cahyono, Widayat, Lina Apriliana. VIII INTERNATIONAL ANNUAL CONFERENCE “INDUSTRIAL TECHNOLOGIES AND ENGINEERING” (ICITE 2021), 2650 , 2022. doi: 10.1063/5.0106801

Last update: 2025-11-24 03:08:24

No citation recorded.