Selective adsorption of protein by a high-efficiency Cu<sup>2+</sup>-cooperated magnetic imprinted nanomaterial

Shi, Lu; Tang, Yuhai; Hao, Yi; He, Gaiyan; Gao, Ruixia; Tang, Xiaoshuang

doi:10.1002/jssc.201600413

Cited by 29 publications

(5 citation statements)

References 35 publications

(34 reference statements)

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“…9B strongly magnetic and allowed for use as an effective magnetic separation carrier. [43][44][45] UMCA particles could be dispersed uniformly in the solution (Fig. 9A).…”

Section: Separation Of Umca Via Magnetismmentioning

confidence: 96%

A study on the preparation and application of a core–shell surface imprinted uranyl magnetic chelating adsorbent

et al. 2018

RSC Adv.

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“…9B strongly magnetic and allowed for use as an effective magnetic separation carrier. [43][44][45] UMCA particles could be dispersed uniformly in the solution (Fig. 9A).…”

Section: Separation Of Umca Via Magnetismmentioning

confidence: 96%

A study on the preparation and application of a core–shell surface imprinted uranyl magnetic chelating adsorbent

et al. 2018

RSC Adv.

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“…MIP was prepared by the sol-gel method [26]. In brief, 22 mg of CAP (0.1 mmol) was dissolved in 18 ml of ethanol.…”

Section: Synthesis Of Molecularly Imprinted Materialsmentioning

confidence: 99%

Magnetic molecularly imprinted polymer based on dynamically established metal‐mediated binding sites for the determination of trace captopril in rat plasma

Cao

Chen

et al. 2023

J of Separation Science

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Therapeutic drug monitoring of captopril, which is a commonly used antihypertensive agent in clinical practice, is necessary. However, matrix effect-induced pretreatment is the bottleneck for determination. Metal-mediated molecularly imprinted polymers, an essential branch of molecularly imprinted polymers with better specificity and selectivity, have been used to separate/enrich analytes from complex matrices. In this work, Cu 2+ was introduced to dynamically establish the binding sites of metal-mediated molecularly imprinted polymer towards captopril. All evidence demonstrated that the metal-mediated molecularly imprinted polymer based on Cu 2+ coordination obtained a higher adsorption capacity (81.23 mg/g), faster adsorption rate (adsorption equilibrium within 50 min), and better selectivity (with the unrecognized analog). Subsequently, the Cu 2+ -mediated molecularly imprinted polymer was used as dispersive molecularly imprinted solid-phase extraction to successfully establish an analytical platform for the determination of trace captopril in rat plasma. The enrichment factor was up to 20, the detection limit was as low as 0.16 μg/ml, and the average recovery was in the range of 87.51%-98.28% with a relative standard deviation of less than 3.29%. This study provides a promising reference for the preparation of selective adsorbents to improve pretreatment.

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“…Li et al 43 proposed a new strategy to selectively recognize and functionalize magnetic CNTs by sol−gel polymerization using Cu 2+ -mediated interaction, and it exhibited a high adsorption capacity (13.35 μg/mg) in 40 s, a good imprinting factor (IF) of 3.41, and a high magnetic responsivity (44.38 emu/g), which can be used as an ideal adsorbent for rapid isolation and enrichment of target analytes. Shi et al 44 obtained imprinted shells with specific recognition cavities for BHb using Fe 3 O 4 nanoparticles with surface carboxyl-chelated Cu(II) to anchor the BHb molecule; the imprinted polymer layer was formed by the condensation of 3-aminopropyltriethoxysilane and octyltrimethoxysilane; the imprinted polymer exhibited high adsorption capacity and selectivity with the help of Cu(II). Guo et al prepared Cu(II)-chelated MIPs (MG@Cu 2+ @ MIPs) for the specific identification of ovalbumin (OVA) from egg white samples.…”

Section: Introductionmentioning

confidence: 99%

Fabrication of Metal Ion–BSA Chelation-Targeted Surface-Imprinted Particles for Protein Separation

Wang

Lyu

Yang

et al. 2023

Ind. Eng. Chem. Res.

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The development of high-performance protein-imprinted materials for adsorption and separation to obtain high-purity, high-quality biomolecules is still one of the most important techniques to promote the rapid development of the protein drug industry. In this paper, a novel highly specific bovine serum albumin (BSA) cobalt–molybdenum double-hydroxides surface-imprinted composite particles (Co–Mo LDHs@MIPs) were constructed by the surface imprinting technique combined with metal chelation. ZIF-67 was etched by molybdate ions to obtain unique MOF-derived bimetallic hydroxide particles (Co–Mo LDHs), which were used as the carrier. The rough outer surface and bimetallic ion coordination of Co–Mo LDHs enable anchoring more template proteins. The adsorption capacity of Co–Mo LDHs@MIPs was up to 423.37 mg/g for BSA in 60 min with an imprinting factor of 2.65. In addition, Co–Mo LDHs@MIPs can selectively recognize and separate BSA from mixed proteins and fetal bovine serum and exhibit high reusability stability.

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Selective adsorption of protein by a high-efficiency Cu²⁺-cooperated magnetic imprinted nanomaterial

Cited by 29 publications

References 35 publications

A study on the preparation and application of a core–shell surface imprinted uranyl magnetic chelating adsorbent

A study on the preparation and application of a core–shell surface imprinted uranyl magnetic chelating adsorbent

Magnetic molecularly imprinted polymer based on dynamically established metal‐mediated binding sites for the determination of trace captopril in rat plasma

Fabrication of Metal Ion–BSA Chelation-Targeted Surface-Imprinted Particles for Protein Separation

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Selective adsorption of protein by a high-efficiency Cu2+-cooperated magnetic imprinted nanomaterial

Cited by 29 publications

References 35 publications

A study on the preparation and application of a core–shell surface imprinted uranyl magnetic chelating adsorbent

A study on the preparation and application of a core–shell surface imprinted uranyl magnetic chelating adsorbent

Magnetic molecularly imprinted polymer based on dynamically established metal‐mediated binding sites for the determination of trace captopril in rat plasma

Fabrication of Metal Ion–BSA Chelation-Targeted Surface-Imprinted Particles for Protein Separation

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Selective adsorption of protein by a high-efficiency Cu²⁺-cooperated magnetic imprinted nanomaterial