Publications by authors named "Jingyu Si"

Anthocyanidins and anthocyanins are one subclass of flavonoids in plants with diverse biological functions and have health-promoting effects. Dihydroflavonol 4-reductase (DFR) is one of the important enzymes involved in the biosynthesis of anthocyanidins and other flavonoids. Here, a new MOF-based nano-immobilized DFR enzyme acting as a nano-biocatalyst for the production of anthocyanidins in vitro was designed.

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This project aimed to explore the influence of the interaction between ovotransferrin fibrils (OTF) and gum arabic (GA) on the formation mechanism, physicochemical properties, and curcumin delivery of the oleogel-in-water Pickering emulsion. Cryo-scanning electron microscopy results showed that OTF-GA complexes effectively adsorbed on the oil-water interface, generating spatial hindrance to inhibit droplet coalescence. The texture analysis also proved that OTF-GA complexes endowed oleogel-in-water Pickering emulsion with preferable springiness (0.

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In order to overcome the problem that traditional W/O/W double emulsions do not have targeted release performance, thereby better meeting the health needs of consumers, ovalbumin fibrils/pectin-based bilayer-stabilized double emulsion (OP-BDE) co-encapsulated with Lactobacillus plantarum and curcumin was constructed with pectin as the outer protective shell, which was expected to be used in the development of novel functional foods. The effects of pectin coating on the viability of Lactobacillus plantarum under conditions including storage, pasteurization, freeze-thaw cycles and in vitro simulated digestion were investigated. Results showed that pectin as protective shell could significantly enhance the tolerance of Lactobacillus plantarum to various environmental factors.

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  • This study focused on the polysaccharides from Polygomatum cyrtonema, aiming to understand their fermentation characteristics and effects on gut health.
  • The polysaccharide (PCP-80%) was characterized as having a specific molecular structure, identified with varying techniques like GC-MS and NMR, indicating it contains important glycosidic bonds.
  • The findings showed that PCP-80% enhances the production of beneficial short-chain fatty acids and increases the abundance of good bacteria in the gut, suggesting potential probiotic benefits.
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  • This study explored how mixed solid-state fermentation (SSF) using specific cellulose-degrading strains (CZ-6 and CZ-7) can enhance the release of bound polyphenols from tea residue's insoluble dietary fiber (IDF).
  • Results indicated that enzyme activities, particularly cellulase and β-glucosidase, were closely linked to the amount of polyphenols released, and structural analysis showed the IDF’s cellulose network was broken down into a looser form.
  • The released polyphenols demonstrated strong inhibitory effects on important enzymes (α-glucosidase and α-amylase) and exhibited significant antioxidant properties, highlighting their potential for use in natural and cost-effective agricultural products.
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  • The study analyzed how various treatments, including enzyme hydrolysis and fermentation with Aspergillus niger and Trichoderma reesei, affect the structural properties and adsorption capabilities of soluble dietary fiber derived from Mesona chinensis Benth residues.
  • The Aspergillus niger-enzyme hydrolysis treatment resulted in a more diverse structure, lower crystallinity, and improved properties like the highest yield of soluble dietary fiber and glucose adsorption capacity.
  • The Aspergillus niger fermentation treatment showed notable benefits in oil-holding and nitrite ion adsorption capacities, indicating that these methods can enhance the economic value of Mesona chinensis Benth residues.
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Appropriate modification methods can increase the proportion of soluble dietary fiber (SDF). In this study, grapefruit peel insoluble dietary fiber (GP-IDF) was modified with the combined microwave and enzymatic method to obtain SDF. With regard to structural characterization, SDF from grapefruit peel IDF (GP-IDF-SDF) presented as a flat sheet with cracks, composed of a typical cellulose type I crystal, and had good stability below 200 °C.

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In our study, two high efficiency cellulose degrading strains were screened, isolated and identified as Cochliobolus kusanoi and Aspergillus puulaauensis by 18S rDNA gene sequencing. In addition, the composite microbial system was constructed to develop the synergistic effect among different strains. Under the optimum conditions, the yield of soluble dietary fiber from tea residues by mixed fermentation method (MF-SDF) dramatically increased compared to single strain fermentation.

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Alkaline hydrogen peroxide (AHP), high-temperature cooking combined with ultrasonic (HTCU) and high-temperature cooking combined with complex enzyme hydrolysis (HTCE) were used to modify soluble dietary fiber (SDF) in Mesona chinensis Benth. residue (MCBR), then the structural and in vitro functional properties of A-SDF, HU-SDF and HE-SDF were investigated. Results showed that the three treatments significantly increased the yield of SDF.

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  • Polyimide (PI) aerogels are lightweight materials known for their low density and strong thermal stability, but they need surface modifications to enhance oil/water separation due to their amphiphilic nature.
  • Incorporating two-dimensional MXenes as nanofillers strengthens these aerogels, allowing for the creation of robust and hydrophobic PI/MXene structures through freeze-drying and thermal processing.
  • The resulting PI/MXene aerogels demonstrate impressive properties, including excellent compressive performance, high oil absorption (18 to 58 times their weight), superelasticity after multiple cycles, and the ability to effectively separate oils from water, while maintaining thermal stability and fire safety.
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Fabricating high-performance MXene-based polymer nanocomposites is a huge challenge because of the poor dispersion and interfacial interaction of MXene nanosheets in the polymer matrix. To address the issue, MXene nanosheets were successfully exfoliated and subsequently modified by long-chain cationic agents with different chain lengths, i.e.

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A novel three-dimensional (3D) epoxy/graphene nanosheet/hydroxylated boron nitride (EP/GNS/BNOH) hybrid aerogel was successfully fabricated in this study. This was uniquely achieved by constructing a well-defined and interconnected 3D network architecture. The manufacturing process of EP/GNS/BNOH involved a simple one-pot hydrothermal strategy, followed by the treatment of freeze-drying and high-temperature curing.

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High-performance poly(1,4-butylene terephthalate) (PBT) nanocomposites have been developed via the consideration of phosphorus-containing agents and amino-carbon nanotube (A-CNT). One-pot functionalization method has been adopted to prepare functionalized CNTs via the reaction between A-CNT and different oxidation state phosphorus-containing agents, including chlorodiphenylphosphine (DPP-Cl), diphenylphosphinic chloride (DPP(O)-Cl), and diphenyl phosphoryl chloride (DPP(O₃)-Cl). These functionalized CNTs, DPP(O)-A-CNTs ( = 0, 1, 3), were, respectively, mixed with PBT to obtain the CNT-based polymer nanocomposites through a melt blending method.

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Aminated multiwalled carbon nanotubes (A-MWCNT) were reacted with diphenylphosphinic chloride (DPP-Cl) to prepare the functionalized MWCNT (DPPA-MWCNT). A-MWCNT and DPPA-MWCNT were respectively mixed with polystyrene (PS) to obtain composites through the melt compounding method. SEM observations demonstrated that the DPPA-MWCNT nanofillers were more uniformly distributed within the PS matrix than A-MWCNT.

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The mechanism of the sulfur cathode in Li-S batteries has been proposed. It was revealed by the real-time quantitative determination of polysulfide species and elemental sulfur by means of high-performance liquid chromatography in the course of the discharge and recharge of a Li-S battery. A three-step reduction mechanism including two chemical equilibrium reactions was proposed for the sulfur cathode discharge.

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