Trends and Prospects in UiO‐66 Metal‐Organic Framework for CO<sub>2</sub> Capture, Separation, and Conversion

Usman, Muhammad; Helal, Aasif; Abdelnaby, Mahmoud M.; Alloush, Ahmed M.; Zeama, Mostafa; Yamani, Zain H.

doi:10.1002/tcr.202100030

Cited by 63 publications

(39 citation statements)

References 187 publications

(172 reference statements)

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“…Photovoltaic power production is one of the most energy-efficient technologies [254,255] in photo-SC, and the changing power of the solar cells is supplied with a SC [256,257]. SCs with a photoactive layer and a huge capacity layer is implemented on a single computer.…”

Section: Photo Supercapacitorsmentioning

confidence: 99%

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A Review of Supercapacitors: Materials Design, Modification, and Applications

et al. 2021

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Supercapacitors (SCs) have received much interest due to their enhanced electrochemical performance, superior cycling life, excellent specific power, and fast charging–discharging rate. The energy density of SCs is comparable to batteries; however, their power density and cyclability are higher by several orders of magnitude relative to batteries, making them a flexible and compromising energy storage alternative, provided a proper design and efficient materials are used. This review emphasizes various types of SCs, such as electrochemical double-layer capacitors, hybrid supercapacitors, and pseudo-supercapacitors. Furthermore, various synthesis strategies, including sol-gel, electro-polymerization, hydrothermal, co-precipitation, chemical vapor deposition, direct coating, vacuum filtration, de-alloying, microwave auxiliary, in situ polymerization, electro-spinning, silar, carbonization, dipping, and drying methods, are discussed. Furthermore, various functionalizations of SC electrode materials are summarized. In addition to their potential applications, brief insights into the recent advances and associated problems are provided, along with conclusions. This review is a noteworthy addition because of its simplicity and conciseness with regard to SCs, which can be helpful for researchers who are not directly involved in electrochemical energy storage.

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Section: Photo Supercapacitorsmentioning

confidence: 99%

“…The hydrogenated ATOs' Cs (area) varied from 1.0 mF/cm 2 to 1 mA/cm 2 . Photo-SCs with optimal storage productivity (about 1.64%), strong cycle power, and rapid response time have shown high photoelectric conversion efficiency [256,257].…”

Section: Photo Supercapacitorsmentioning

confidence: 99%

A Review of Supercapacitors: Materials Design, Modification, and Applications

et al. 2021

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“…Once the correlation curves are established following the measurement and analysis of the CPMG decays, and the fit function for the correlation curve identified, a process which takes around 1 h for each mixture, the separation power of a particular MOF can be quantified within few minutes. UiO-66(Zr) (Figure 3) was chosen as a model MOF to test our methodology in the view of its high thermal, mechanical, and chemical stability, well-controlled synthesis procedure, and great promise in the field of separation [23,[48][49][50][51][52][53][54]. This MOF is built from Zr6O6(CO2)12 nodes connected via terephthalate linkers.…”

Section: Resultsmentioning

confidence: 99%

Screening Metal–Organic Frameworks for Separation of Binary Solvent Mixtures by Compact NMR Relaxometry

et al. 2021

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Metal–organic frameworks (MOFs) have great potential as an efficient alternative to current separation and purification procedures of a large variety of solvent mixtures—a critical process in many applications. Due to the huge number of existing MOFs, it is of key importance to identify high-throughput analytical tools, which can be used for their screening and performance ranking. In this context, the present work introduces a simple, fast, and inexpensive approach by compact low-field proton nuclear magnetic resonance (NMR) relaxometry to investigate the efficiency of MOF materials for the separation of a binary solvent mixture. The mass proportions of two solvents within a particular solvent mixture can be quantified before and after separation with the help of a priori established correlation curves relating the effective transverse relaxation times T2eff and the mass proportions of the two solvents. The new method is applied to test the separation efficiency of powdered UiO-66(Zr) for various solvent mixtures, including linear and cyclic alkanes and benzene derivate, under static conditions at room temperature. Its reliability is demonstrated by comparison with results from 1H liquid-state NMR spectroscopy.

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“…MOFs have sparked much research interest because of their inherent advantages, such as high SSA, large pores, controllable morphology, and multifunctionalities. They are considered one of the best links between energy storage and nanotechnology [188,249–254] . Due to such outstanding properties, when used as electrode materials, MOFs can provide superior HSCs energy storage performance, [255] as shown in Figure 18(l).…”

Section: Performance Evaluation Of the Carbonaceous And Redox‐active ...mentioning

confidence: 99%

“…They are considered one of the best links between energy storage and nanotechnology. [188,[249][250][251][252][253][254] Due to such outstanding properties, when used as electrode materials, MOFs can provide superior HSCs energy storage performance, [255] as shown in Figure 18(l). He et al [256] prepared a high electronic conductivity and increased active sites, material with the coupling of NiCo-MOF and NiCoP heterostructures, which delivered excellent electrochemical performance (728 C/g specific capacity at a specific current of 1.0 A/g).…”

Section: P E R S O N a L A C C O U N T T H E C H E M I C A L R E C O R Dmentioning

confidence: 99%

Recent Progress in Carbonaceous and Redox‐Active Nanoarchitectures for Hybrid Supercapacitors: Performance Evaluation, Challenges, and Future Prospects

Shah

Aziz

Yamani

2022

The Chemical Record

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Due to advancements in technology, the energy demand is becoming more intense with time. The rapid fossil fuels consumption and environmental concerns triggered intensive research for alternative renewable energy resources, including sunlight and wind. Yet, due to their time‐dependent operations, significant electric energy storage systems are required to store substantial energy. In this regard, electrochemical energy storage devices, like batteries and supercapacitors (SCs), have recently attracted much research attention. Recent developments in SCs demonstrated that hybrid SCs (HSCs), which combine the excellent properties of batteries and SCs, increase the specific energy, specific power, specific capacitance, and life span. Carbonaceous and redox‐active materials have been explored as efficient electrode materials for applications in HSCs, ultimately enhancing their electrochemical performances. The HSCs performance significantly depends on the porosity, specific surface area, and conductivity of the electrode materials. This review article gives an overview of recent advances in developing HSCs with high specific power, specific energy, and long cyclic‐life. The fabrication of various HSCs materials using carbonaceous and redox‐active nanoarchitectures and their characterization are explored in‐depth, including electrode development, basic principles, and device engineering. A proper investigation has been conducted regarding state‐of‐the‐art materials as HSC electrodes. This review focuses on the most up‐to‐date, cutting‐edge, electrode materials for HSCs and their performance. The possibilities for novel electrode materials and their impact on the HSCs performance for future energy storage are also discussed.

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Trends and Prospects in UiO‐66 Metal‐Organic Framework for CO₂ Capture, Separation, and Conversion

Cited by 63 publications

References 187 publications

A Review of Supercapacitors: Materials Design, Modification, and Applications

A Review of Supercapacitors: Materials Design, Modification, and Applications

Screening Metal–Organic Frameworks for Separation of Binary Solvent Mixtures by Compact NMR Relaxometry

Recent Progress in Carbonaceous and Redox‐Active Nanoarchitectures for Hybrid Supercapacitors: Performance Evaluation, Challenges, and Future Prospects

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Trends and Prospects in UiO‐66 Metal‐Organic Framework for CO2 Capture, Separation, and Conversion

Cited by 63 publications

References 187 publications

A Review of Supercapacitors: Materials Design, Modification, and Applications

A Review of Supercapacitors: Materials Design, Modification, and Applications

Screening Metal–Organic Frameworks for Separation of Binary Solvent Mixtures by Compact NMR Relaxometry

Recent Progress in Carbonaceous and Redox‐Active Nanoarchitectures for Hybrid Supercapacitors: Performance Evaluation, Challenges, and Future Prospects

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Trends and Prospects in UiO‐66 Metal‐Organic Framework for CO₂ Capture, Separation, and Conversion