Chemical Functionalisation of 2D Materials by Batch and Continuous Hydrothermal Flow Synthesis

Alli, Uthman; Hettiarachchi, Sunil J.; Kellici, Suela

doi:10.1002/chem.202000383

Cited by 18 publications

(15 citation statements)

References 74 publications

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“…A high-temperature and pressure-driven hydrothermal process along with the strong van der Waals forces might be the reasons behind the way they are folded. 41 Furthermore, the presence of extremely disordered and randomly distributed hexagonal petal like nanoflakes were seen all over the hybrid structure as shown in the inset of the Figure 2 a. The flakes are in the range of 80 to 90 nm in diameter with visible edges, and they tend to be layered or overlapped to construct the wrinkled flower-like shape.…”

Section: Resultsmentioning

confidence: 94%

Wrinkled Flower-Like rGO intercalated with Ni(OH)₂ and MnO₂ as High-Performing Supercapacitor Electrode

et al. 2022

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This study reports a simple one-step hydrothermal method for the preparation of a Ni(OH) 2 and MnO 2 intercalated rGO nanostructure as a potential supercapacitor electrode material. Having highly amorphous rGO layers with turbostratic and integrated wrinkled flower-like morphology, the as-prepared electrode material showed a high specific capacitance of 420 F g –1 and an energy density of 14.58 Wh kg –1 with 0.5 M Na 2 SO 4 as the electrolyte in a symmetric two-electrode. With the successful intercalation of the γ-MnO 2 and α-Ni(OH) 2 in between the surface of the as-prepared rGO layers, the interlayer distance of the rGO nanosheets expanded to 0.87 nm. The synergistic effect of γ-MnO 2 , α-Ni(OH) 2 , and rGO exhibited the satisfying high cyclic stability with a capacitance retention of 82% even after 10 000 cycles. Thus, the as-prepared Ni(OH) 2 and MnO 2 intercalated rGO ternary hybrid is expected to contribute to the fabrication of a real-time high-performing supercapacitor device.

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Section: Resultsmentioning

confidence: 94%

Wrinkled Flower-Like rGO intercalated with Ni(OH)₂ and MnO₂ as High-Performing Supercapacitor Electrode

et al. 2022

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“…When the reaction temperature of the closed system is above the boiling point of the solvent system, the high temperature and pressure environment promotes the reaction in the system, and 2D nanosheets are constructed under the induction of catalysts or surfactants. Finally, ultrathin 2D metal oxide nanosheets with good crystallization are obtained after removing surfactants by filtration and centrifugation ( Alli et al., 2020 ; Sun et al., 2014 ). Based on this generalized synthesis strategy, ultrathin 2D MOXs (TiO 2 [ Lan et al., 2018 ], ZnO [ Sahu et al., 2018 ], MoO 3 [ Alsaif et al., 2014 ], and WO 3 [ Khan et al., 2017 ]) have been successfully synthesized.…”

Section: Fabrication Methods Of 2d Metal Oxidesmentioning

confidence: 99%

Recent advances in the fabrication of 2D metal oxides

et al. 2022

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Summary Atomically thin two-dimensional (2D) metal oxides exhibit unique optical, electrical, magnetic, and chemical properties, rendering them a bright application prospect in high-performance smart devices. Given the large variety of both layered and non-layered 2D metal oxides, the controllable synthesis is the critical prerequisite for enabling the exploration of their great potentials. In this review, recent progress in the synthesis of 2D metal oxides is summarized and categorized. Particularly, a brief overview of categories and crystal structures of 2D metal oxides is firstly introduced, followed by a critical discussion of various synthesis methods regarding the growth mechanisms, advantages, and limitations. Finally, the existing challenges are presented to provide possible future research directions regarding the synthesis of 2D metal oxides. This work can provide useful guidance on developing innovative approaches for producing both 2D layered and non-layered nanostructures and assist with the acceleration of the research of 2D metal oxides.

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“…Aqueous solution-based hydrothermal synthesis has been widely used for the synthesis of 2D type transition metal dichalcogenides [188][189][190].…”

Section: Hydrothermal Methodsmentioning

confidence: 99%

“…Aqueous solution-based hydrothermal synthesis has been widely used for the synthesis of 2D type transition metal dichalcogenides [ 188 – 190 ]. Hydrothermal synthesis of 2D materials can provide different structure and morphology, affording a new pathway to change the carrier mobility and concentration, making the synthesized 2D materials as a good candidate for TE applications.…”

Section: Bottom-up Nanostructuring Of Thermoelectricsmentioning

confidence: 99%

Bottom-Up Engineering Strategies for High-Performance Thermoelectric Materials

Zhu

Wang

et al. 2021

Nano-Micro Lett.

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The recent advancements in thermoelectric materials are largely credited to two factors, namely established physical theories and advanced materials engineering methods. The developments in the physical theories have come a long way from the “phonon glass electron crystal” paradigm to the more recent band convergence and nanostructuring, which consequently results in drastic improvement in the thermoelectric figure of merit value. On the other hand, the progresses in materials fabrication methods and processing technologies have enabled the discovery of new physical mechanisms, hence further facilitating the emergence of high-performance thermoelectric materials. In recent years, many comprehensive review articles are focused on various aspects of thermoelectrics ranging from thermoelectric materials, physical mechanisms and materials process techniques in particular with emphasis on solid state reactions. While bottom-up approaches to obtain thermoelectric materials have widely been employed in thermoelectrics, comprehensive reviews on summarizing such methods are still rare. In this review, we will outline a variety of bottom-up strategies for preparing high-performance thermoelectric materials. In addition, state-of-art, challenges and future opportunities in this domain will be commented.

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Chemical Functionalisation of 2D Materials by Batch and Continuous Hydrothermal Flow Synthesis

Cited by 18 publications

References 74 publications

Wrinkled Flower-Like rGO intercalated with Ni(OH)₂ and MnO₂ as High-Performing Supercapacitor Electrode

Wrinkled Flower-Like rGO intercalated with Ni(OH)₂ and MnO₂ as High-Performing Supercapacitor Electrode

Recent advances in the fabrication of 2D metal oxides

Bottom-Up Engineering Strategies for High-Performance Thermoelectric Materials

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Chemical Functionalisation of 2D Materials by Batch and Continuous Hydrothermal Flow Synthesis

Cited by 18 publications

References 74 publications

Wrinkled Flower-Like rGO intercalated with Ni(OH)2 and MnO2 as High-Performing Supercapacitor Electrode

Wrinkled Flower-Like rGO intercalated with Ni(OH)2 and MnO2 as High-Performing Supercapacitor Electrode

Recent advances in the fabrication of 2D metal oxides

Bottom-Up Engineering Strategies for High-Performance Thermoelectric Materials

Contact Info

Product

Resources

About

Wrinkled Flower-Like rGO intercalated with Ni(OH)₂ and MnO₂ as High-Performing Supercapacitor Electrode

Wrinkled Flower-Like rGO intercalated with Ni(OH)₂ and MnO₂ as High-Performing Supercapacitor Electrode