An insight Into Surface and Diffusion Characteristics of UiO‐66@ZIF‐8 Core–Shell MOF for Asymmetric Supercapacitors with Unprecedented Energy Density

Mansi,; Shrivastav, Vishal; Dubey, Prashant; Hołdyński, Marcin; Sundriyal, Shashank; Tiwari, Umesh K.; Deep, Akash

doi:10.1002/adsu.202400043

Advanced Sustainable Systems

2024

DOI: 10.1002/adsu.202400043

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An insight Into Surface and Diffusion Characteristics of UiO‐66@ZIF‐8 Core–Shell MOF for Asymmetric Supercapacitors with Unprecedented Energy Density

Mansi,

Vishal Shrivastav,

Prashant Dubey

et al.

Abstract: In this study, nanosized zeolitic imidazolate framework‐8 (ZIF‐8) crystal has been produced on the universitetet i oslo‐66 (UiO‐66) metal–organic framework (MOF) to make core–shell structure using a layer‐by‐layer deposition method. In comparison to the pristine UiO‐66 and ZIF‐8, the core–shell MOF exhibits superior performance in terms of specific capacitance. This enhanced performance is attributed to its remarkable ability to facilitate the rapid diffusion of electrolyte ions through nanosized ZIF‐8 and enh… Show more

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Metal‐Organic Frameworks: A Solution for Greener Polymeric Materials with Low Fire Hazards

Sun,

Miao,

Pan

et al. 2024

Advanced Sustainable Systems

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The non‐degradability of polymeric materials and the flammability of their products have resulted in significant environmental pollution. Metal‐organic frameworks (MOFs) serve as innovative flame retardants, featuring a high specific surface area, ample pore volume, and customizable structure. By leveraging the structural adjustability of MOFs, biological modifiers containing flame retardant elements can be integrated into MOFs, thereby ensuring flame retardation while imparting biodegradable properties. Moreover, the issue of material pollution can be effectively addressed by utilizing MOFs as flame retardants within renewable polymer matrices. Recently, an increasing number of researchers have concentrated on developing green flame‐retardant polymer materials using MOFs. However, as far as is known, no comprehensive review on green polymers with minimal fire risk produced using MOFs currently exists. Consequently, this study reviews the recent advancements in the development of green flame‐retardant polymer materials utilizing MOFs, covering the preparation and utilization of bio‐based and recyclable MOFs. Additionally, a flame‐retardant renewable matrix based on MOFs is also synthesized. Furthermore, this review anticipates discussing the benefits and drawbacks associated with using MOFs to manufacture green flame‐retardant polymer products. This work aims to assist researchers in rapidly comprehending the most recent advancements in this field and guiding efficient design.

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Metal‐Organic Frameworks: A Solution for Greener Polymeric Materials with Low Fire Hazards

Sun,

Miao,

Pan

et al. 2024

Advanced Sustainable Systems

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show abstract

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An insight Into Surface and Diffusion Characteristics of UiO‐66@ZIF‐8 Core–Shell MOF for Asymmetric Supercapacitors with Unprecedented Energy Density

Cited by 1 publication

References 61 publications

Metal‐Organic Frameworks: A Solution for Greener Polymeric Materials with Low Fire Hazards

Metal‐Organic Frameworks: A Solution for Greener Polymeric Materials with Low Fire Hazards

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