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      Magnetic Fe‐Ni bimetallic oxide shell nanorods containing anti‐protein polymer segments for protein purification

      1 , 2 , 1 , 1 , 1 , 3
      AIChE Journal
      Wiley

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          Abstract

          In this paper, BSA surface‐imprinted magnetic Fe‐Ni bimetallic oxide shell nanorods (m‐FeNi@MIPs@PCBMA) were prepared with the assistance of poly(3‐[[2‐(methacryloyloxy)ethyl]dimethylammonium] propionate (PCBMA) in connection with the surface‐imprinting technique. The Fe‐Ni bimetallic oxide shell layer nanorods (m‐FeNi) with magnetic responsiveness simplified the separation and recovery process of adsorbed materials. The controlled introduction of PCBMA facilitated the reduction of protein non‐specific adsorption. At the optimal encapsulation ratio of 1:0.75 (W m‐FeNi@MIPs: W CBMA), m‐FeNi@MIPs@PCBMA could adsorb 122.98 ± 5.00 mg/g of BSA within 80 min, and the value of the imprinting factor (IF) was also increased from 1.68 (m‐FeNi@MIPs) to 3.95. In the mixed protein adsorption and real sample separation experiments, m‐FeNi@MIPs@PCBMA could selectively separate BSA. Meanwhile, after seven adsorption–desorption experiments, the loss of BSA adsorption by the imprinted nanorods was only 15.9%, which had good reusability. Therefore, m‐FeNi@MIPs@PCBMA has a broader application prospect in the field of protein separation and purification.

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          Molecularly Imprinted Polymers: Antibody Mimics for Bioimaging and Therapy

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            Template-imprinted nanostructured surfaces for protein recognition.

            Synthetic materials capable of selectively recognizing proteins are important in separations, biosensors and the development of biomedical materials. The technique of molecular imprinting creates specific recognition sites in polymers by using template molecules. Molecular recognition is attributed to binding sites that complement molecules in size, shape and chemical functionality. But attempts to imprint proteins have met with only limited success. Here we report a method for imprinting surfaces with protein-recognition sites. We use radio-frequency glow-discharge plasma deposition to form polymeric thin films around proteins coated with disaccharide molecules. The disaccharides become covalently attached to the polymer film, creating polysaccharide-like cavities that exhibit highly selective recognition for a variety of template proteins, including albumin, immunoglobulin G, lysozyme, ribonuclease and streptavidin. Direct imaging of template recognition is achieved by patterning a surface at the micrometre scale with imprinted regions.
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              Super-hydrophilic zwitterionic poly(carboxybetaine) and amphiphilic non-ionic poly(ethylene glycol) for stealth nanoparticles

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                Author and article information

                Contributors
                (View ORCID Profile)
                Journal
                AIChE Journal
                AIChE Journal
                Wiley
                0001-1541
                1547-5905
                July 2024
                March 21 2024
                July 2024
                : 70
                : 7
                Affiliations
                [1 ] School of Chemistry and Chemical Engineering Northwestern Polytechnical University Xi'an China
                [2 ] Xi'an Key Laboratory of Functional Organic Porous Materials Northwestern Polytechnical University Xi'an China
                [3 ] Shaanxi Engineering and Research Center for Functional Polymers on Adsorption and Separation, Sunresins New Materials Co. Ltd Xi'an China
                Article
                10.1002/aic.18410
                896e099b-0d2c-4dc4-a4b7-171327b5772b
                © 2024

                http://onlinelibrary.wiley.com/termsAndConditions#vor

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