Host–Guest Intercalation Chemistry in MXenes and Its Implications for Practical Applications

Chen, Hongwu; Ma, Hongyun; Li, Chun

doi:10.1021/acsnano.1c04423

Cited by 48 publications

(41 citation statements)

References 342 publications

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“…The match of their energy levels is the key for the interaction, which is associated with the chemical structure and surface chemistry of the host. [ 27 ] For graphite‐like materials with non‐polar surface and delocalization π electrons, both electron acceptors and donors are allowed to create interactions by charge transfer effects, and electrons flow away from or into the their conduction band. TMDs‐like materials only accept electrons to fill the d‐orbitals, and thus electron acceptors do not create interactions.…”

Section: Different Roles Of Metal Ions In Mxene Synthesis and Processingmentioning

confidence: 99%

“…Apart from the interlayer spacing, the mechanical properties, electrical conductivity, and stability of MXenes are also influenced. [ 27 , 44 , 45 ] The introduction of intercalants (e.g., Li + , dimethylsulfoxide, and tetraalkylammonium hydroxide) is thought to result in a lower conductivity, worse mechanical properties, and instability. [ 27 , 46 ] Removing the intercalants by cation exchange in an acid solution [ 46 ] or annealing [ 47 ] can significantly increase the electrical conductivity.…”

Section: Different Roles Of Metal Ions In Mxene Synthesis and Processingmentioning

confidence: 99%

“…[ 55 ] In most cases, the H 2 O intercalation is promoted by the hydration of metal ions due to the strong electrostatic interactions between the negatively charged Ti 3 C 2 T x surface and metal cations, in contrast with the considerably weaker interaction with pure H 2 O. [ 27 ] The zeta potential of the Ti 3 C 2 T x dispersion is lower than −30 mV over a wide pH range, [ 56 , 57 ] which explains why the sluggish exfoliation kinetics is hastened by metal ion intercalation in the HF/Li and LiF/HCl methods.…”

Section: Different Roles Of Metal Ions In Mxene Synthesis and Processingmentioning

confidence: 99%

“…[ 25 , 26 ] Interestingly, some metal ions behave differently and may induce a dramatic structural or lattice change of MXenes. [ 27 ] For example, divalent metal ions (e.g., Fe 2+ , Mg 2+ ) can trigger crosslinking to form a 3D network, which is beneficial for ion diffusion. [ 28 , 29 ] Some metal ions with redox activities (e.g., Fe 3+ , Cu 2+ ) may generate atomic defects, pores, or produce MXene degradation.…”

Section: Introductionmentioning

confidence: 99%

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Roles of Metal Ions in MXene Synthesis, Processing and Applications: A Perspective

Tao

Shang

et al. 2022

Advanced Science

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With a decade of effort, significant progress has been achieved in the synthesis, processing, and applications of MXenes. Metal ions play many crucial roles, such as in MXene delamination, structure regulation, surface modification, MXene composite construction, and even some unique applications. The different roles of metal ions are attributed to their many interactions with MXenes and the unique nature of MXenes, including their layered structure, surface chemistry, and the existence of multi‐valent transition metals. Interactions with metal ions are crucial for the energy storage of MXene electrodes, especially in metal ion batteries and supercapacitors with neutral electrolytes. This review aims to provide a good understanding of the interactions between metal ions and MXenes, including the classification and fundamental chemistry of their interactions, in order to achieve their more effective utilization and rational design. It also provides new perspectives on MXene evolution and exfoliation, which may suggest optimized synthesis strategies. In this respect, the different effects of metal ions on MXene synthesis and processing are clarified, and the corresponding mechanisms are elaborated. Research progress on the roles metal ions have in MXene applications is also introduced.

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Section: Different Roles Of Metal Ions In Mxene Synthesis and Processingmentioning

confidence: 99%

Section: Different Roles Of Metal Ions In Mxene Synthesis and Processingmentioning

confidence: 99%

Section: Different Roles Of Metal Ions In Mxene Synthesis and Processingmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Roles of Metal Ions in MXene Synthesis, Processing and Applications: A Perspective

Tao

Shang

et al. 2022

Advanced Science

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“…Nevertheless, the roles of different interlayer species and the guest-host interfacial chemistry play in determining thermodynamic, structures, and interfacial properties of MXene materials have not been systematically explored. [35][36][37][38] There has been progress towards investigating water/ion-layer interactions, yet the energetics of intercalated particle -MXene layer interactions and why they present higher exothermic formation enthalpies from elements than the bulk parent MAX phases after synthesis and high-temperature treatments have not been clearly understood. 11,[39][40][41][42][43] In other words, unlocking MXene's full potential requires an improved understanding of the energetic interplay of intercalants, surface chemistry, and specific layered structures for samples synthesized under different etching conditions and with varied etching agents.…”

Section: Introductionmentioning

confidence: 99%

Energetic Stability and Interfacial Complexity of Ti3C2Tx MXenes Synthesized with HF/HCl and CoF2/HCl as Etching Agents

Goncharov

Hammond-Pereira

Reece

et al. 2022

Preprint

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MXenes are ultra-thin two-dimensional layered early-transition metal carbides and nitrides with potential applications in various emerging technologies, such as energy storage, water purification, and catalysis. MXenes are synthesized from the parent MAX phase with different etching agents (HF or fluoride salts with a strong acid) by selectively removing a more weakly bound crystalline layer of Al or Ga replaced by surface groups (-O, -F, -OH, etc.). Ti3C2Tx MXene synthesized by CoF2/HCl etching has layered heterogeneity due to intercalated Al3+ and Co2+ that act as pillars for interlayer spacings. This study investigates the impacts of etching environments on the compositional, interfacial, structural, and thermodynamic properties of Ti3C2Tx MXenes. Specifically, compared with HF/HCl etching, CoF2/HCl treatment leads to a Ti3C2Tx MXene with a broader distribution of interlayer distances, increased number of intercalated cations, and decreased degree of hydration. Moreover, we determine the enthalpies of formation at 25 °C (ΔHf,25°C) of Ti3C2Tx MXenes etched with CoF2/HCl, ΔHf,25°C = –1891.7 ± 35.7 kJ/mol Ti3C2, and etched with HF/HCl, ΔHf,25°C = –1978.2 ± 35.7 kJ/mol Ti3C2, using high-temperature oxidation drop calorimetry. These energetic data are discussed and compared with experimentally derived and computationally predicted values to elucidate the effects of intercalants and surface groups of MXenes. We find that MXenes with intercalated metal cations has a less exothermic ΔHf,25°C from an increase in the interlayer space and dimension heterogeneity and a decrease in the degree of hydration leading to reduced layer–layer van der Waals interactions and weakened hydration effects applied on the MXene layers. The outcomes of this study further our understanding of MXene’s energetic–structure–interfacial property relationships.

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Guidelines on the Intercalation of Ions and Molecules in MXenes

Natu,

Barsoum

2024

Transition Metal Carbides and Nitrides (MXenes) Handbook

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Host–Guest Intercalation Chemistry in MXenes and Its Implications for Practical Applications

Cited by 48 publications

References 342 publications

Roles of Metal Ions in MXene Synthesis, Processing and Applications: A Perspective

Roles of Metal Ions in MXene Synthesis, Processing and Applications: A Perspective

Energetic Stability and Interfacial Complexity of Ti3C2Tx MXenes Synthesized with HF/HCl and CoF2/HCl as Etching Agents

Guidelines on the Intercalation of Ions and Molecules in MXenes

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