Leong Jun-Yee scite author profile

Ionotropic gelation has been an attractive method for the fabrication of biopolymeric oil-core microcapsules due to its safe and mild processing conditions. However, the mandatory use of a nozzle system to form the microcapsules restricts the process scalability and the production of small microcapsules (<100 μm). We report, for the first time, a nozzleless and surfactant-free approach to fabricate oil-core biopolymeric microcapsules through ionotropic gelation at the interface of an O/W Pickering emulsion. This approach involves the self-assembly of calcium carbonate (CaCO3) nanoparticles at the interface of O/W emulsion droplets followed by the addition of a polyanionic biopolymer into the aqueous phase. Subsequently, CaCO3 nanoparticles are dissolved by pH reduction, thus liberating Ca(2+) ions to cross-link the surrounding polyanionic biopolymer to form a shell that encapsulates the oil droplet. We demonstrate the versatility of this method by fabricating microcapsules from different types of polyanionic biopolymers (i.e., alginate, pectin, and gellan gum) and water-immiscible liquid cores (i.e., palm olein, cyclohexane, dichloromethane, and toluene). In addition, small microcapsules with a mean size smaller than 100 μm can be produced by selecting the appropriate conventional emulsification methods available to prepare the Pickering emulsion. The simplicity and versatility of this method allows biopolymeric microcapsules to be fabricated with ease by ionotropic gelation for numerous applications.

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Design an immobilized lipase enzyme for biodiesel production

Jegannathan

Jun-Yee

Eng-Seng

et al. 2009

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In this study, an eco-friendly immobilized lipase was designed for biodiesel production process. Lipase enzyme was encapsulated in κ-carrageenan by coextrusion technique. The various parameters, such as catalytic activity, stability, reusability, shape, and size of the encapsulated lipase, were studied to design an immobilized lipase for biodiesel production. Transesterification of palm oil with methanol was used for biodiesel production. At the optimum conditions, the results were found to be quite promising, converting the raw material near to 100% biodiesel production. This attempt was found to be very effective and eco-friendly with the environmentally benign novel technique.

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Leong Jun-Yee

Advances in fabricating spherical alginate hydrogels with controlled particle designs by ionotropic gelation as encapsulation systems

Production of biodiesel from palm oil using liquid core lipase encapsulated in κ-carrageenan

Nozzleless Fabrication of Oil-Core Biopolymeric Microcapsules by the Interfacial Gelation of Pickering Emulsion Templates

Design an immobilized lipase enzyme for biodiesel production

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