Protein‐Structure‐Directed Metal–Organic Zeolite‐like Networks as Biomacromolecule Carriers

Wang, Huanrong; Han, Lin; Zheng, Dong; Yang, Ming-Wei; Andaloussi, Yassin H.; Cheng, Peng; Zhang, Zhenjie; Ma, Shengqian; Zaworotko, Michael J.; Feng, Yifan; Chen, Yao

doi:10.1002/anie.202000299

Cited by 59 publications

(41 citation statements)

References 34 publications

(37 reference statements)

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“…Novel hybrid nanomaterials with particular surface chemistry and multidimensional geometric nanoarchitecture may promote advanced materials' rapid evolution. As an important branch of MOFs (metal-organic frameworks), zeolite-like metal-organic frameworks (ZIFs) integrate the advantages of zeolite and MOFs, such as high porosity, cage-like cavities, adjustable pores, designate functions, excellent stability, etc., which caused great application prospects in the fields of efficient catalysis [27,28], energy storage [29,30], gas adsorption separation [31,32], sensor detection [33,34], and immobilized enzymes [35,36]. In recent years, researchers have been focusing on regulating MOFs' morphology and structure, especially making MOFs exist as ultra-thin flakes, which can effectively increase the coordinatively unsaturated metal sites and further improve their application performance.…”

Section: Introductionmentioning

confidence: 99%

Synthesis of a Reactive Template-Induced Core–Shell PZS@ZIF-67 Composite Microspheres and Its Application in Epoxy Composites

et al. 2021

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Developing superior properties of epoxy resin composites with high fire resistance, light smoke, and low toxicity has been the focus of the research in the flame-retardant field. In particular, it is essential to decrease the emissions of toxic gases and smoke particles generated during the thermal decomposition of epoxy resin (EP) to satisfy the industrial requirements for environmental protection and safety. Consequently, the PZS@ZIF-67 composite was designed and synthesized by employing the hydroxyl group-containing polyphosphazene (poly(cyclotriphosphazene-co-4,4′-dihydroxydiphenylsulfone), PZS) as both the interfacial compatibility and an in situ template and the ZIF-67 nanocrystal as a nanoscale coating and flame-retardant cooperative. ZIF-67 nanocrystal with multidimensional nanostructures was uniformly wrapped on the surface of PZS microspheres. Subsequently, the acquired PZS@ZIF-67 composite was incorporated into the epoxy resin to prepare composite samples for the study of their fire safety, toxicity suppression, and mechanical performance. Herein, the EP/5% PZS@ZIF-67 passed the V-0 rating in a UL-94 test with a 31.9% limit oxygen index value. More precisely, it is endowed with a decline of 51.08%, 28.26%, and 37.87% of the peak heat release rate, the total heat release, and the total smoke production, respectively. In addition, the unique structure of PZS@ZIF-67 microsphere presented a slight impact on the mechanical properties of EP composites at low loading. The PZS@ZIF-67 possible flame-retardant mechanism was speculated based on the analysis of the condensed phase and the gas phase of EP composites.

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Section: Introductionmentioning

confidence: 99%

Synthesis of a Reactive Template-Induced Core–Shell PZS@ZIF-67 Composite Microspheres and Its Application in Epoxy Composites

et al. 2021

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“…Because each LPAm olecule consists of 6.2-6.8 aromaticr ings on average, almost every aromatic ring had one PhOH group, which is possibly the reason why LPAw as soluble in water.T he remarkable PhOH content of LPAw ould allow wide applications not only [15] 1105-4191 783-13771.4-3.0 2.2-4.8 12.5-68.5 DAIL [30] 860-1190 540-650 1.5-1.9 0.9-1.8 2.0-5.6 BHT ----0.2, [30] 0.3, [31] 1.1 [15] BHA ----2.4, [31] 11.1 [30] VE [15] ----263. in antioxidant synthesis buta lso in polymer synthesis, for example,for phenolic adhesives and resins. [36] The crude LPAp reparationsw ere tested for antioxidant properties as inhibitors. The DPPH inhibition curve is shown in Figure 6.…”

Section: Lpayieldsmentioning

confidence: 99%

Short‐Time Hydrothermal Treatment of Poplar Wood for the Production of a Lignin‐Derived Polyphenol Antioxidant

Zhang

Zhao

et al. 2020

ChemSusChem

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Artificial antioxidants are synthesized from fossil sources and are now widely used in the polymer, food, and cosmetics industries. The gradual depletion of fossil resources makes it practically significant and necessary to produce green antioxidants from renewable lignocellulosic resources. Herein, short‐time hydrothermal (STH) treatment was developed for production of lignin‐derived polyphenol antioxidants (LPAs) from poplar wood under conditions of high temperature and high pressure. LPA yields from 21.5 to 37.6 % on the basis of lignin in untreated wood were obtained by STH treatments as result of lignin depolymerization at 190–200 °C and 10 MPa in 5–8 min. Depolymerization reactions were confirmed by the much lower molecular weight of LPA (1076 g mol−1) than that of native lignin (4094 g mol−1). NMR spectroscopy revealed the structural features of lignin in the isolated LPA, namely syringyl and guaiacyl units with well‐preserved interunit linkages. A Folin–Ciocalteu assay indicated that each LPA molecule contained 5.4 phenolic hydroxyl groups on average, much more than other technical lignins. The remarkable antioxidant ability of LPA was verified by the radical‐scavenging index of 53.5–67.3, much higher than 0.2–11.1 of the commercial antioxidants butylated hydroxytoluene (BHT) and butylated hydroxyanisole (BHA). STH treatment only requires water and heat for production of high‐value antioxidant, which provides a green and sustainable method for the utilization of lignocelluloses.

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“…To date,3 Dz eolitic imidazolate frameworks (ZIFs,c a. 3.5 aperture) are the most widely explored MOFs for hosting bio-entities, [12][13][14][15][16][17][18][19][20] owing to their biocompatible synthesis conditions that shield biomacromolecules against denaturation during the MOF biohybrids formation. The activity of the biomacromolecule after entrapment in a3 D microporous ZIF,h owever, is still far from satisfactory.F or instance,t he biomacromolecules (horseradish peroxidase, lipase,c atalase,e tc.)…”

Section: Introductionmentioning

confidence: 99%

“…MOFs have great potential for hosting guest molecules compared with traditional materials . Recently, scientists found that biomacromolecules could be entrapped in situ into the growing MOFs via approaches such as coprecipitation and biomineralization . The biomacromolecule@MOF biohybrids allow cell activity to be mimicked .…”

Section: Introductionmentioning

confidence: 99%

“…[9][10][11] Recently,s cientists found that biomacromolecules could be entrapped in situ into the growing MOFs via approaches such as coprecipitation and biomineralization. [12][13][14][15][16][17][18][19] Thebiomacromolecule@MOF biohybrids allow cell activity to be mimicked. [20] Fore xample,t he ultrahigh porosity of MOFs provides cytomembrane-like structures for hosting biomolecules,a nd the porous MOFs networks allows the selective transport of the substrate that mimics the biotransformation process in living cell.…”

Section: Introductionmentioning

confidence: 99%

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Embedding Functional Biomacromolecules within Peptide‐Directed Metal–Organic Framework (MOF) Nanoarchitectures Enables Activity Enhancement

et al. 2020

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Rationally tailoring ar obust artificial coating can enhance the lifetime of fragile biomacromolecules.H owever, the coating also can restrain the activity of the guest because of the decreased substrate accessibility.H erein, we report ap eptide-directed strategy that enables in situ tailoring of the MOFshrouded biohybrids into controllable nanoarchitectures.T he MOF biohybrid can be shaped from different 3D microporous architectures into a2 Dm esoporous layer by ap eptide modulator.U sing this mild strategy,w es how that the nanoarchitectures of the MOF coatings significantly affect the biological functions of the contained biomacromolecules.The biomacromolecules entrapped within the novel 2D mesoporous spindle-shaped MOFs (2D MSMOFs) have significantly increased bioactivity compared to when encased within the hitherto explored 3D microporous MOFs.T he improvement results from the shortened diffusion path and enlarged pore channel in 2D MSMOFs.M eanwhile,t he thin 2D MSMOF layer also can providee xcellent protection of the hosted biomacromolecules or protein-scaffolded biominerals through structural confinement.

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Protein‐Structure‐Directed Metal–Organic Zeolite‐like Networks as Biomacromolecule Carriers

Cited by 59 publications

References 34 publications

Synthesis of a Reactive Template-Induced Core–Shell PZS@ZIF-67 Composite Microspheres and Its Application in Epoxy Composites

Synthesis of a Reactive Template-Induced Core–Shell PZS@ZIF-67 Composite Microspheres and Its Application in Epoxy Composites

Short‐Time Hydrothermal Treatment of Poplar Wood for the Production of a Lignin‐Derived Polyphenol Antioxidant

Embedding Functional Biomacromolecules within Peptide‐Directed Metal–Organic Framework (MOF) Nanoarchitectures Enables Activity Enhancement

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