Modification of ZIF-8 membranes by atomic layer deposition for high propylene/propane selectivity

Ronte, Anil; Dangwal, Shailesh; Lin, Han; Wagle, Phadindra; Echeverría, Elena; Lee, Jong Suk; Zhu, Jiahua; McIlroy, David N.; Kim, Seok‐Jhin

doi:10.1016/j.micromeso.2022.112173

Cited by 8 publications

(2 citation statements)

References 56 publications

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“…The high resolution of XPS results showed various peaks at 1021.6 and 1044.4 eV, 398.8 and 399.6 eV, 285.8 and 284.8 eV (Figure S3, Supporting Information), which were the indication of Zn 2p 3/2 and Zn 2p 1/2 (from ZIF‐8), C‐N and C = N bond (from 2‐MIM), C = C and C‐O bond (from DOX), respectively. [ 51–53 ] Of note, these two peaks at binding energies of 711.69 and 724.49 eV are attributed to Fe 2p 3/2 and Fe 2p 1/2 , respectively, of which are both the properties of ferric iron (Figure S3, Supporting Information). While these two peaks with binding energies of 709.79 and 722.59 eV are derived from the divalent iron in the nanoparticles (Figure S3d, Supporting Information), they play an important role in triggering the Fenton reaction and ferroptosis.…”

Section: Resultsmentioning

confidence: 99%

Fe₃O₄‐Incorporated Metal‐Organic Framework for Chemo/Ferroptosis Synergistic Anti‐Tumor via the Enhanced Chemodynamic Therapy

Xu,

Wang,

Xiong

et al. 2024

Adv Healthcare Materials

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Metal‐organic framework (MOF)‐based drug delivery nanomaterials for cancer therapy have attracted increasing attention in recent years. Here, we propose an enhanced chemodynamic anti‐tumor therapy strategy by promoting the Fenton reaction by using core‐shell zeolitic imidazolate framework‐8 (ZIF‐8)@Fe3O4 as a therapeutic platform. Carboxymethyl cellulose (CMC) was used as a stabilizer of Fe3O4, which then decorated on the surface of ZIF‐8 via the electrostatic interaction and served as an efficient Fenton reaction trigger. Meanwhile, the pH‐responsive ZIF‐8 scaffold acted as a container to encapsulate the chemotherapeutic drug doxorubicin (DOX). The obtained DOX‐ZIF‐8@Fe3O4/CMC nanoparticles concomitantly accelerated DOX release and generated more hydroxyl radicals by targeting the lysosomes in cancer cells. In vitro and in vivo studies verify that the DZFC nanoparticles trigger GPX4‐dependent ferroptosis via the activation of the c‐Jun N‐terminal kinases (JNK) signaling pathway, following to achieve the chemo/ferroptosis synergistic anti‐tumor efficacy. No marked toxic effects were detected during DZFC treatment in a tumor‐bearing mouse model. This composite nanoparticle remarkably suppressed the tumor growth with minimized systemic toxicity, opening new horizons for the next generation of theragnostic nanomedicines.This article is protected by copyright. All rights reserved

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Section: Resultsmentioning

confidence: 99%

Fe₃O₄‐Incorporated Metal‐Organic Framework for Chemo/Ferroptosis Synergistic Anti‐Tumor via the Enhanced Chemodynamic Therapy

Xu,

Wang,

Xiong

et al. 2024

Adv Healthcare Materials

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“…Enhancing the interface hydrophilicity of membranes has shown excellent performance when dealing with oily wastewater [ 23 , 24 ]. Conventional strategies of surface modification, such as spin-coating [ 25 , 26 ], grafting [ 27 ], bio-adhesion [ 28 ], atomic layer deposition [ 29 ], and surface coating, have been considered to exhibit considerable efficacy [ 30 , 31 ]. Generally, the best renowned representative is considered to be surface coating via synthesis multifunctional wetting coating [ 32 , 33 ].…”

Section: Introductionmentioning

confidence: 99%

Constructing a Hierarchical Hydrophilic Crosslink Network on the Surface of a Polyvinylidene Fluoride Membrane for Efficient Oil/Water Emulsion Separation

Zhang

Gao

et al. 2023

Membranes

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Oil/water mixtures from industrial and domestic wastewater adversely affect the environment and human beings. In this context, the development of a facile and improved separation method is crucial. Herein, dopamine was used as a bioadhesive to bind tea polyphenol (TP) onto the surface of a polyvinylidene fluoride (PVDF) membrane to form the first hydrophilic polymer network. Sodium periodate (NaIO4) is considered an oxidising agent for triggering self-polymerisation and can be used to introduce hydrophilic groups via surface manipulation to form the second hydrophilic network. In contrast to the individual polydopamine (PDA) and TP/NaIO4 composite coatings for a hydrophobic PVDF microfiltration membrane, a combination of PDA, TP, and NaIO4 has achieved the most facile treatment process for transforming the hydrophobic membrane into the hydrophilic state. The hierarchical superhydrophilic network structure with a simultaneous underwater superoleophobic membrane exhibited excellent performance in separating various oil-in-water emulsions, with a high water flux (1530 L.m−2 h−1.bar) and improved rejection (98%). The water contact angle of the modified membrane was 0° in 1 s. Moreover, the steady polyphenol coating was applied onto the surface, which endowed the membrane with an adequate antifouling and recovery capability and a robust durability against immersion in an acid, alkali, or salt solution. This facile scale-up method depends on in situ plant-inspired chemistry and has remarkable potential for practical applications.

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Post-synthetic modification of metal-organic framework-based membranes for enhanced molecular separations

Chen,

Zhao

2023

Coordination Chemistry Reviews

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Modification of ZIF-8 membranes by atomic layer deposition for high propylene/propane selectivity

Cited by 8 publications

References 56 publications

Fe₃O₄‐Incorporated Metal‐Organic Framework for Chemo/Ferroptosis Synergistic Anti‐Tumor via the Enhanced Chemodynamic Therapy

Fe₃O₄‐Incorporated Metal‐Organic Framework for Chemo/Ferroptosis Synergistic Anti‐Tumor via the Enhanced Chemodynamic Therapy

Constructing a Hierarchical Hydrophilic Crosslink Network on the Surface of a Polyvinylidene Fluoride Membrane for Efficient Oil/Water Emulsion Separation

Post-synthetic modification of metal-organic framework-based membranes for enhanced molecular separations

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Modification of ZIF-8 membranes by atomic layer deposition for high propylene/propane selectivity

Cited by 8 publications

References 56 publications

Fe3O4‐Incorporated Metal‐Organic Framework for Chemo/Ferroptosis Synergistic Anti‐Tumor via the Enhanced Chemodynamic Therapy

Fe3O4‐Incorporated Metal‐Organic Framework for Chemo/Ferroptosis Synergistic Anti‐Tumor via the Enhanced Chemodynamic Therapy

Constructing a Hierarchical Hydrophilic Crosslink Network on the Surface of a Polyvinylidene Fluoride Membrane for Efficient Oil/Water Emulsion Separation

Post-synthetic modification of metal-organic framework-based membranes for enhanced molecular separations

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Product

Resources

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Fe₃O₄‐Incorporated Metal‐Organic Framework for Chemo/Ferroptosis Synergistic Anti‐Tumor via the Enhanced Chemodynamic Therapy

Fe₃O₄‐Incorporated Metal‐Organic Framework for Chemo/Ferroptosis Synergistic Anti‐Tumor via the Enhanced Chemodynamic Therapy