Xiaofei Yin scite author profile

In this report, we describe the synthesis of a molecularly imprinted polymer (MIP) nanotube membrane, using a porous anodic alumina oxide (AAO) membrane by surface-initiated atom transfer radical polymerization (ATRP). The use of a MIP nanotube membrane in chemical separations gives the advantage of high affinity and selectivity. Furthermore, because the molecular imprinting technique can be applied to different kinds of target molecules, ranging from small organic molecules to peptides and proteins, such MIP nanotube membranes will considerably broaden the application of nanotube membranes in chemical separations and sensors. This report also shows that the ATRP route is an efficient procedure for the preparation of molecularly imprinted polymers. Furthermore, the ATRP route works well in its formation of MIP nanotubes within a porous AAO membrane. The controllable nature of ATRP allows the growth of a MIP nanotube with uniform pores and adjustable thickness. Thus, using the same route, it is possible to tailor the synthesis of MIP nanotube membranes with either thicker MIP nanotubes for capacity improvement or thinner nanotubes for efficiency improvement.

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Grape seed and clove bud extracts as natural antioxidants in silver carp (Hypophthalmichthys molitrix) fillets during chilled storage: Effect on lipid and protein oxidation

Shi

et al. 2014

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SPION decorated exosome delivery of TNF-α to cancer cell membranes through magnetism

Zhuang

Chen

et al. 2020

Nanoscale

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Biogenic amine and quality changes in lightly salt- and sugar-salted black carp (Mylopharyngodon piceus) fillets stored at 4°C

et al. 2014

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The recycling of rare earths from waste tricolor phosphors in fluorescent lamps: A review of processes and technologies

Wu¹,

Yin²,

Zhang³

et al. 2014

Resources, Conservation and Recycling

132

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Water-Based Black Phosphorus Hybrid Nanosheets as a Moldable Platform for Wound Healing Applications

Huang

Wei

Zhang

et al. 2018

ACS Appl. Mater. Interfaces

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Black phosphorus (BP) nanosheets with unique biocompatibility and superior optical performance have attracted enormous attention in material science. However, their instability and poor solution-processability severely limit their clinical applications. In this work, we demonstrate the use of silk fibroin (SF) as an exfoliating agent to produce thin-layer BP nanosheets with long-term stability and facile solution-processability. Presence of SF prevents rapid oxidation and degradation of the resultant BP nanosheets, enhancing their performance in physiological environment. The SF-modified BP nanosheets exhibit subtle solution-processability and are fabricated into various BP-based material formats. As superior photothermal agents, BP-based wound dressings effectively prevent bacterial infection and promote wound repair. Therefore, this work opens new avenues for unlocking current challenges of BP nanosheet applications for practical biomedical purposes.

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Distribution characteristics of microplastics in the seawater and sediment: A case study in Jiaozhou Bay, China

Zheng

Cao

et al. 2019

Science of The Total Environment

200

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SPION‐Decorated Exosome Delivered BAY55‐9837 Targeting the Pancreas through Magnetism to Improve the Blood GLC Response

Zhuang

et al. 2019

Small

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BAY55‐9837, a potential therapeutic peptide in the treatment of type 2 diabetes mellitus (T2DM), is capable of inducing glucose (GLC)‐dependent insulin secretion. However, the therapeutic benefit of BAY55‐9837 is limited by its short half‐life, lack of targeting ability, and poor blood GLC response. How to improve the blood GLC response of BAY55‐9837 is an existing problem that needs to be solved. In this study, a method for preparing BAY55‐9837‐loaded exosomes coupled with superparamagnetic iron oxide nanoparticle (SPIONs) with pancreas islet targeting activity and an enhanced blood GLC response with the help of an external magnetic force (MF) is demonstrated. The plasma half‐life of BAY55‐9837 loaded in exosome‐SPION is 27‐fold longer than that of BAY55‐9837. The active targeting property of SIPONs enables BAY‐exosomes to gain a favorable targeting property, which improves the BAY55‐9837 blood GLC response capacity with the help of an external MF. In vivo studies show that BAY‐loaded exosome‐based vehicle delivery enhances pancreas islet targeting under an external MF and markedly increases insulin secretion, thereby leading to the alleviation of hyperglycemia. The chronic administration of BAY‐exosome‐SPION/MF significantly improves glycosylated hemoglobin and lipid profiles. BAY‐exosome‐SPION/MF maybe a promising candidate for a peptide drug carrier for T2DM with a better blood GLC response.

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Xiaofei Yin

Template Synthesized Molecularly Imprinted Polymer Nanotube Membranes for Chemical Separations

Grape seed and clove bud extracts as natural antioxidants in silver carp (Hypophthalmichthys molitrix) fillets during chilled storage: Effect on lipid and protein oxidation

SPION decorated exosome delivery of TNF-α to cancer cell membranes through magnetism

Biogenic amine and quality changes in lightly salt- and sugar-salted black carp (Mylopharyngodon piceus) fillets stored at 4°C

The recycling of rare earths from waste tricolor phosphors in fluorescent lamps: A review of processes and technologies

Water-Based Black Phosphorus Hybrid Nanosheets as a Moldable Platform for Wound Healing Applications

Distribution characteristics of microplastics in the seawater and sediment: A case study in Jiaozhou Bay, China

SPION‐Decorated Exosome Delivered BAY55‐9837 Targeting the Pancreas through Magnetism to Improve the Blood GLC Response

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