Green and Facile Preparation of Covalent Organic Frameworks Based on Reaction Medium for Advanced Applications

Azadi, Elham; Dinari, Mohammad

doi:10.1002/chem.202301837

Cited by 4 publications

(2 citation statements)

References 81 publications

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“…Recently, porous organic polymers have drawn widespread attention in the field of sensing due to the availability of plentiful building blocks and their tunable structures, porosity, and functions. − Therein, covalent organic polymers (COPs), which are constructed from light organic constituents, have been demonstrated to own a microporous or a mesoporous structure, superior stability, and a highly tunable structure . Based on these advantages, COPs are widely applied in fields of contaminant removal and sensing, including heavy metals, antibiotics, pesticides, organic dyes. − The diversity of building blocks and the pore environment provides opportunities to decorate the backbone of COPs with new functional groups, which is usually done via two approaches: direct synthesis of COPs through the construction of functional monomers, and the introduction of functional groups onto the backbone of COP via postsynthetic modification, where the former is relatively simpler and easier to implement .…”

Section: Introductionmentioning

confidence: 99%

Photostimulus-Responsive Peptide Dot-Centered Covalent Organic Polymers: Effective Pesticide Sensing via Enhancing Accessibility

Zhang,

Liu

et al. 2024

ACS Appl. Mater. Interfaces

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Pesticide detection and monitoring are necessary for human health as the overapplication has serious consequences for environmental pollution. Herein, a proper modulation strategy was implemented to construct the photostimulus-responsive peptide-dot-centered covalent organic polymer (P-PCOP) nanoarchitecture for selective sensing of pesticides. The as-constructed P-PCOP was prepared at room temperature by using amino-containing peptide dots as a building block instead of common organic molecules, and the merits of P-PCOP enable it to reduce the steric hindrance of recognition, enhance the interfacial contact of the target, and facilitate the accessibility of sites, which promises to improve the sensitivity. The P-PCOF exhibited a low detection limit of 0.38 μg L–1 to cartap over the range of 1–80 μg L–1 (R 2 = 0.9845), and the recoveries percentage in real samples was estimated to be 93.39–105.82%. More importantly, the DFT calculation confirmed the selective recognition ability of P-PCOP on chemical pesticides. In conjunction with a smartphone-integrated portable reading device, on-site chemical sensing is achieved. The proper modulation strategy of fixing a functional guest on the COP system contributes to the advanced structure-chemical properties that are conducive to their applications in chemical sensing.

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Section: Introductionmentioning

confidence: 99%

Photostimulus-Responsive Peptide Dot-Centered Covalent Organic Polymers: Effective Pesticide Sensing via Enhancing Accessibility

Zhang,

Liu

et al. 2024

ACS Appl. Mater. Interfaces

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“…COFs, metal-free cousins of MOFs, as newly developed organic polymers, have caused ripples of excitement among researchers striving to exploit their promising drug delivery potential. These crystalline porous polymers emerged recently and are characterized by their molecular building blocks containing periodic dynamic covalent bonds (Azadi & Dinari, 2023). This unique feature grants them enhanced stability and adaptability when compared to inorganic particles that rely on ionic or metallic bonds (Yaghi, 2016).…”

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confidence: 99%

Covalent organic frameworks (COFs) as carrier for improved drug delivery and biosensing applications

Younas,

Jubeen,

Bano

et al. 2024

Biotech & Bioengineering

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Porous organic frameworks (POFs) represent a significant subclass of nanoporous materials in the field of materials science, offering exceptional characteristics for advanced applications. Covalent organic frameworks (COFs), as a novel and intriguing type of porous material, have garnered considerable attention due to their unique design capabilities, diverse nature, and wide‐ranging applications. The unique structural features of COFs, such as high surface area, tuneable pore size, and chemical stability, render them highly attractive for various applications, including targeted and controlled drug release, as well as improving the sensitivity and selectivity of electrochemical biosensors. Therefore, it is crucial to comprehend the methods employed in creating COFs with specific properties that can be effectively utilized in biomedical applications. To address this indispensable fact, this review paper commences with a concise summary of the different methods and classifications utilized in synthesizing COFs. Second, it highlights the recent advancements in COFs for drug delivery, including drug carriers as well as the classification of drug delivery systems and biosensing, encompassing drugs, biomacromolecules, small biomolecules and the detection of biomarkers. While exploring the potential of COFs in the biomedical field, it is important to acknowledge the limitations that researchers may encounter, which could impact the practicality of their applications. Third, this paper concludes with a thought‐provoking discussion that thoroughly addresses the challenges and opportunities associated with leveraging COFs for biomedical applications. This review paper aims to contribute to the scientific community's understanding of the immense potential of COFs in improving drug delivery systems and enhancing the performance of biosensors in biomedical applications.

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Efficient adsorption and advanced purification of metal ions induced by synergistic effect of amine and thione on covalent organic frameworks

Jiao,

Bi,

et al. 2024

Colloids and Surfaces A: Physicochemical and Engineering Aspect

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Green and Facile Preparation of Covalent Organic Frameworks Based on Reaction Medium for Advanced Applications

Cited by 4 publications

References 81 publications

Photostimulus-Responsive Peptide Dot-Centered Covalent Organic Polymers: Effective Pesticide Sensing via Enhancing Accessibility

Photostimulus-Responsive Peptide Dot-Centered Covalent Organic Polymers: Effective Pesticide Sensing via Enhancing Accessibility

Covalent organic frameworks (COFs) as carrier for improved drug delivery and biosensing applications

Efficient adsorption and advanced purification of metal ions induced by synergistic effect of amine and thione on covalent organic frameworks

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