Nanomagnetic Particle Anchored to Monodispers Porous Microspheres for Pectinase Immobilization

Shu Xian Bi; Xiao Liang Zhang

doi:10.4028/www.scientific.net/AMR.1088.38

Paper Titles

Effect of Nanostructured Oxide Coatings on Tensile Properties of Cast Pure Magnesium
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Multifunctional NaYF₄:Yb³⁺, Er³⁺@Au Nanocomposites: Upconversion Luminescence, Temperature Sensing and Photothermal Therapy
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Comparative Studies for the PAMAM/RE and HPAE/RE (RE=La, Nd, and Eu) Based on Molecular Dynamics Simulations
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Facile Synthesis and Photocatalytic Properities of Mini Nanoparticle CdS Quantum Dots/Boron and Nitrogen Co-Doped TiO₂ Transparent Photocatalyst Emulsion
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Nanomagnetic Particle Anchored to Monodispers Porous Microspheres for Pectinase Immobilization
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Effect of Noble Metal Nanoparticles in SERRS Measurements of Water-Soluble Porphyrins
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In Situ TEM Manipulation and Property Study of Cd₂Ge₂O₃ Nanowires
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Structures and Performances of PA6/PVA Nanofibers Membranes from Electrospinning
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A Simple Solvothermal Synthesis of Spherical Y₂O₃:Eu³⁺
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Nanomagnetic Particle Anchored to Monodispers Porous Microspheres for Pectinase Immobilization

Abstract:

The idea of preparing the surface of chitosan layer pre-absorbed on the monodispers porous microsphere via layer by layer approach receives special relevance in enzyme technology. Moreover, the colloidal stability is not impeded by the adsorbed proteins despite the fact that up to 390.2 mg of enzyme adsorbed per gram of the carrier particles. Maximum relative activity was observed at 50 °C and pH 3.5. The activity half lives for native and bound states of enzyme were found as 14.27 d and 31.05 d, respectively. These particles, premodified with the layer of magnetic nanoparticles to impart the magnetic property, were repeatedly used as catalysts following their rapid and easy separation.