Recent Advances in Growth of Transition Metal Carbides and Nitrides (MXenes) Crystals

Fan, Yixuan; Li, Lin; Zhang, Ye; Zhang, Xiaotao; Geng, Dechao; Hu, Wenping

doi:10.1002/adfm.202111357

Cited by 62 publications

(38 citation statements)

References 133 publications

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“…More importantly, MXenes and MXene-based composite materials have potential applications in various fields such as energy storage ( Lukatskaya et al, 2013 ; Ghidiu et al, 2014 ; Liang et al, 2015 ; Wang et al, 2015 ; Luo et al, 2020 ; VahidMohammadi et al, 2021 ), flexible electronics ( Xu et al, 2021a ; Xu et al, 2021b ; Shi et al, 2022a ; Xu et al, 2022 ), electromagnetic shielding ( Shahzad et al, 2016 ; Iqbal et al, 2020 ), catalysis ( Seh et al, 2016 ; Liu et al, 2020 ), and water treatment ( Ren et al, 2015 ) due to their unique physical and chemical properties ( Halim et al, 2014 ; Dillon et al, 2016 ; Hantanasirisakul et al, 2016 ). In order to promote their potential applications, numerous research efforts have been carried out to explore the emerging etching methods and the stable storage of MXene, especially the large-scale preparing methods ( Naguib and Gogotsi, 2015 ; Alhabeb et al, 2017 ; Gogotsi and Anasori, 2019 ; Fan et al, 2022 ).…”

Section: Introductionmentioning

confidence: 99%

“…Since a new family of two-dimensional (2D) materials was first discovered in 2011 (Naguib et al, 2011), increasing attention has been paid to these novel 2D transition metal carbides, carbonitrides, and nitrides (named MXenes), and currently, more than 40 MXene compositions (Naguib et al, 2021) have been synthesized by different efficient routes (Naguib and Gogotsi, 2015;Alhabeb et al, 2017;Anasori et al, 2017;Tao et al, 2017;Zhou et al, 2017;Gogotsi and Anasori, 2019;Fan et al, 2022). The MAX phases are layered ternary carbides and nitrides with a general formula M n+1 AX n , where M represents transition metals (such as Sc, Ti, Zr, Hf, V, Nb, Ta, Cr, Mo, etc.…”

Section: Introductionmentioning

confidence: 99%

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Facile preparation of Ti3C2Tx sheets by selectively etching in a H2SO4/H2O2 mixture

Tian

Tian²,

Cao³

et al. 2022

Front. Chem.

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MXenes and MXene-based composite materials have potential applications in a wide range of areas due to their unique physical and chemical characteristics. At present, it is still a major challenge to develop a simple, safe, and efficient route to prepare MXenes without using fluorinated etchants. Herein, we design a facile method to prepare Ti3C2Tx MXene sheets by selectively etching Ti3AlC2 powders in an aqueous diluted H2SO4 solution with H2O2 as an oxidant. In a system of H2SO4 and H2O2, an aqueous H2SO4 solution with a concentration of 6 mol/L is a strongly acidic medium with no volatility, and 30% H2O2 acts as a strong green oxidizer without harmful by-products. The experimental process is safe and convenient to conduct in a beaker under a water bath of 40°C. The etching process can be completed in 1 h under the air atmosphere conditions. The experimental results confirmed that the etched Ti3AlC2 powders can be successfully separated into Ti3C2Tx nanosheets under ultrasound treatment without using any intercalation agent. The relevant etching mechanism is may be attributed to the synergy effect of H2SO4 and H2O2, which triggers sequential selective etching of Al layers from the Ti3AlC2 phase. It may provide a new green way to prepare MXene-based materials without using toxic HF or HF-containing etchants.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Facile preparation of Ti3C2Tx sheets by selectively etching in a H2SO4/H2O2 mixture

Tian

Tian²,

Cao³

et al. 2022

Front. Chem.

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“…Generally, the synthesis of MQDs consists of two steps, including the chemical exfoliations of 2D MXenes from 3D bulk MAX for the first step, or the homogeneous 2D MXene can be obtained by bottom-up route such as chemical vapor deposition (CVD) growth [ 91 , 92 ]. The next step is the preparation of MQDs mainly by top-down methods.…”

Section: Preparation Of Mqdsmentioning

confidence: 99%

Quantum Dots Compete at the Acme of MXene Family for the Optimal Catalysis

2022

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It is well known that two-dimensional (2D) MXene-derived quantum dots (MQDs) inherit the excellent physicochemical properties of the parental MXenes, as a Chinese proverb says, “Indigo blue is extracted from the indigo plant, but is bluer than the plant it comes from.” Therefore, 0D QDs harvest larger surface-to-volume ratio, outstanding optical properties, and vigorous quantum confinement effect. Currently, MQDs trigger enormous research enthusiasm as an emerging star of functional materials applied to physics, chemistry, biology, energy conversion, and storage. Since the surface properties of small-sized MQDs include the type of surface functional groups, the functionalized surface directly determines their performance. As the Nobel Laureate Wolfgang Pauli says, “God made the bulk, but the surface was invented by the devil,” and it is just on the basis of the abundant surface functional groups, there is lots of space to be thereof excavated from MQDs. We are witnessing such excellence and even more promising to be expected. Nowadays, MQDs have been widely applied to catalysis, whereas the related reviews are rarely reported. Herein, we provide a state-of-the-art overview of MQDs in catalysis over the past five years, ranging from the origin and development of MQDs, synthetic routes of MQDs, and functionalized MQDs to advanced characterization techniques. To explore the diversity of catalytic application and perspectives of MQDs, our review will stimulate more efforts toward the synthesis of optimal MQDs and thereof designing high-performance MQDs-based catalysts.

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“…With the increasingly serious problems of environmental pollution and energy shortage, it is very important to develop green and efficient renewable energy. − In order to seek sustainable and renewable energy, unremitting efforts have been made to develop practical energy conversion technologies. Hydrogen is considered as a clean and pollution-free energy with a high energy density (120 MJ kg –1 ), and hydrogen evolution reaction (HER) is a promising carbon-free hydrogen production option among various advanced technologies. − Noble metal (Pt, Ir, and Ru)-based electrocatalysts and rare metallic oxides exhibited excellent HER performance. − However, the scarcity and high price limit their large-scale application. − Therefore, tremendous efforts have been contributed to searching for the non-noble metal electrocatalysts with aplenty and stable reserves, such as transition metal dichalcogenides (TMDs). − In addition, to meet different application demands, development of electrocatalysts with excellent stability and high activity in varied pH has been actively pursued. − …”

Section: Introductionmentioning

confidence: 99%

Re Modulation of Metallic Ultrathin 2M-WS₂ for Highly Efficient Hydrogen Evolution in Both Acidic and Alkaline Media

Guo

Zhao

et al. 2022

ACS Appl. Energy Mater.

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Metastable two-dimensional transition metal dichalcogenides (TMDs) are ideal electrocatalysts because of their excellent conductivities and high activities. However, metastable TMDs are generally unstable under electrochemical testing, especially after exfoliation with exposed abundant active sites. 2M-WS2, a typical TMD material with synergic metallic nature and exfoliative characteristics, offers great potential in catalyzing hydrogen evolution reaction (HER). Herein, we developed a unique Re modulation strategy to stabilize ultrathin 2M-WS2 nanosheets with less than four S–W–S stacking layers and enhanced intrinsic activity. Re-modulated 2M-WS2 (2M-Re x W1–x S2) enables the robust chemical intercalation exfoliation to ultrathin nanosheets with additional active sites to promote the electrochemical activity. Meanwhile, the introduction of Re, an adjacent element to W for electronic modulation, could increase the electron density of states and improve structural stability. This work showcases a promising electronic modulation method to synergistically couple structural stability with catalytic activity for high-performance HER.

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Recent Advances in Growth of Transition Metal Carbides and Nitrides (MXenes) Crystals

Cited by 62 publications

References 133 publications

Facile preparation of Ti3C2Tx sheets by selectively etching in a H2SO4/H2O2 mixture

Facile preparation of Ti3C2Tx sheets by selectively etching in a H2SO4/H2O2 mixture

Quantum Dots Compete at the Acme of MXene Family for the Optimal Catalysis

Re Modulation of Metallic Ultrathin 2M-WS₂ for Highly Efficient Hydrogen Evolution in Both Acidic and Alkaline Media

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Recent Advances in Growth of Transition Metal Carbides and Nitrides (MXenes) Crystals

Cited by 62 publications

References 133 publications

Facile preparation of Ti3C2Tx sheets by selectively etching in a H2SO4/H2O2 mixture

Facile preparation of Ti3C2Tx sheets by selectively etching in a H2SO4/H2O2 mixture

Quantum Dots Compete at the Acme of MXene Family for the Optimal Catalysis

Re Modulation of Metallic Ultrathin 2M-WS2 for Highly Efficient Hydrogen Evolution in Both Acidic and Alkaline Media

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Product

Resources

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Re Modulation of Metallic Ultrathin 2M-WS₂ for Highly Efficient Hydrogen Evolution in Both Acidic and Alkaline Media