Documentos de Su W. | REDI

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Mostrando 10 resultados de: 10

Filtros aplicados

Área de conocimiento: "Biotecnología"

Subtipo de publicación

Publisher

Food and Function(3)

Journal of Agricultural and Food Chemistry(2)

Critical Reviews in Food Science and Nutrition(1)

Food Chemistry(1)

Área temáticas

Tecnología alimentaria(4)

Química analítica(3)

Ingeniería química(2)

Tecnología de otros productos orgánicos(2)

Alimentación y bebidas(1)

Área de conocimiento

Ciencia de los alimentos(3)

Ciencia de materiales(2)

Ciencia ambiental(1)

Nanocompuesto(1)

Nanopartícula(1)

Año de Publicación

Origen

Palabras Claves

microfluidics(2)

A phosphorescence resonance energy transfer-based “off-on” long afterglow aptasensor for cadmium detection in food samples

Abstract: Cadmium contamination is a severe food safety risk for human health. Herein, a long afterglow “off-o

Palabras claves:

aptamer, Cadmium ions, Long afterglow, Phosphorescence

Lai B., Mingqian Tan, Su W., Wang H., Wang Z., Yu C., Zhu B.W.

Advances of microfluidic intestine-on-a-chip for analyzing anti-inflammation of food

Abstract: Microfluidic intestine-on-a-chip enables novel means of emulating human intestinal pathophysiology i

Palabras claves:

anti-inflammation, barrier integrity, Foodborne nanoparticles, intestinal models, microfluidics, Tissue engineering

Liang D., Mingqian Tan, Su W.

Facile synthesis of food-grade and size-controlled nanocarriers based on self-assembly of procyanidins and phycocyanin

Abstract: Nanocarriers provide the possibility to overcome the low solubility, poor stability, and low bioavai

Palabras claves:

Chen Y., Cui W., Mingqian Tan, Qiao F., Su W., Tie S., Xiang S.

Endogenous Fluorescence Carbon Dots Derived from Food Items

Abstract: Background: Fluorescent carbon dots (CDs) are a novel class of carbon-based nanomaterials that were

Palabras claves:

fluorescent carbon dots, food-borne nanoparticles, potential risk, Toxicity

Mingqian Tan, Su W., Wang H.

Engineering Milk-Derived Exosome for Enhancing Cellular Astaxanthin Delivery

Abstract: Astaxanthin (AST), a fat-soluble carotenoid, shows excellent antioxidant and anti-inflammatory activ

Palabras claves:

Astaxanthin, delivery system, inflammatory factors, milk-derived exosomes, stability

Cui W., Guo M., Mingqian Tan, Qiao F., Su W., Tie S.

Engineering probiotics-derived membrane vesicles for encapsulating fucoxanthin: evaluation of stability, bioavailability, and biosafety

Abstract: Due to the multiplex absorption barrier in the gastrointestinal tract, the low oral bioavailability

Palabras claves:

Li J., Li Y., Liang D., Liu C., Mingqian Tan, Su W.

Microfluidic spinning of fucoxanthin-loaded nanofibers for enhancing antioxidation and clarification of fruit juice

Abstract: Fruit juice is one of the most popular drinks, which requires strict processing conditions to ensure

Palabras claves:

Li J., Li Y., Miao S., Mingqian Tan, Su W., Zhang X.D.

Microfluidic strategies for sample separation and rapid detection of food allergens

Abstract: Background: Foodborne illnesses caused by food allergens are common public health problems and have

Palabras claves:

Food allergens, food safety, Immunoassay, microfluidics, Nucleic acid analysis

Liang D., Mingqian Tan, Su W.

Sea bass protein-polyphenol complex stabilized high internal phase of algal oil Pickering emulsions to stabilize astaxanthin for 3D food printing

Abstract: The protective effect of sea bass protein (SBP)-(−)-epigallocatechin-3-gallate (EGCG) covalent compl

Palabras claves:

3D Printing, Algal oil, Astaxanthin, High internal phase Pickering emulsions, Sea bass protein-(-)-epigallocatechin-3-gallate complex, stability

Chen Y., Mingqian Tan, Su W., Wang H., Xing S., Zhang L., Zhou C.

pH-Responsive Core-Shell Microparticles Prepared by a Microfluidic Chip for the Encapsulation and Controlled Release of Procyanidins

Abstract: The purpose of this study was to construct a delivery system using a microfluidic chip to protect pr

Palabras claves:

Chitosan, Controlled release, Encapsulation, microfluidic chip, procyanidins, self-assembly

Chen Y., Mingqian Tan, Su W., Tie S., Zhang X.D., Zhao X.