Eco-friendly alginate/PCL-TiO2 hybrid biocomposites: Preparation, properties, and methylene blue photodegradation

Eco-friendly alginate/PCL-TiO2 hybrid biocomposites: Preparation, properties, and methylene blue photodegradation

The study focuses on developing an environmentally friendly method for synthesizing hybrid biocomposites using sodium alginate, polycaprolactone (PCL), and TiO2 fillers. The eco-friendly alginate/PCL-TiO2 hybrid biocomposites were prepared using a Rheomixer Polylab OS. Various characterization techn...

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Main Authors: Bunga Fisikanta Bukit, Agus Wedi Pratama, Erna Frida, Bakti Berlyanto Sedayu, Dina Fransiska, Deni Purnomo, Emma Rochima, Istiqomah Rahmawati, Sona Suhartana, Firda Aulya Syamani
Format: Article
Language:English
Published: Elsevier 2025-01-01
Series:South African Journal of Chemical Engineering
Subjects:
Biocomposites
Biodegradable
Photocatalytic
Methylene blue
Eco-friendly
Online Access:http://www.sciencedirect.com/science/article/pii/S1026918524001422
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Summary:The study focuses on developing an environmentally friendly method for synthesizing hybrid biocomposites using sodium alginate, polycaprolactone (PCL), and TiO2 fillers. The eco-friendly alginate/PCL-TiO2 hybrid biocomposites were prepared using a Rheomixer Polylab OS. Various characterization techniques, including XRD, FT-IR, UTM, DSC, TGA, biodegradation testing, and methylene blue photodegradation, were employed to evaluate the properties of the composites. XRD analysis of the composites PA, PA-Ti1, PA-Ti3, and PA-Ti5 revealed an orthorhombic to tetragonal semicrystalline structure after added TiO2. FT-IR spectroscopy show sharp peak at 1721 cm⁻¹ represents C = O vibration, while characteristic CH stretching vibrations of PCL are evident at 2800–2900 cm-1. Furthermore, Ti-O-Ti bond appears at wave number 668.48 cm−1 and Ti-O-C appears at 1054.69 cm−1. The addition of TiO2 slightly reduced mechanical properties. TiO2 influence the compound mechanical performance, with a decrease in elastic modulus and corresponding increase in elongation at break with increasing TiO2 content. DSC analysis revealed that the composites with TiO2 displayed a single melting peak slightly above 50 °C, with a significant increase in ∆Hm with TiO2 content. TGA results showed that all samples exhibited two stages of decomposition. The first stage, occurring around 200 °C and the second stage, observed above 300 °C. The PA composite showed a mass reduction from 0.058 g to 0.052 g, similar to PA-Ti1 and PA-Ti3. However, PA-Ti5 composite showed a smaller mass reduction. Methylene blue solutions containing PA-Ti1, PA-Ti3, and PA-Ti5 composites exhibited a color change from blue to transparent after 24 h of irradiation, indicating MB degradation.
ISSN:1026-9185

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