Microwave-assisted rapid synthesis of titanium phosphate free phosphorus doped Ti<sub>3</sub>C<sub>2</sub> MXene with boosted pseudocapacitance

Gupta, Nisha; Sahu, Ranjan K.; Mishra, Trilochan; Bhattacharya, Pallab

doi:10.1039/d2ta04061a

Cited by 38 publications

(35 citation statements)

References 91 publications

(104 reference statements)

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“…105 As analyzed by density functional theory (DFT) calculations, Enyashin et al reported Re doping could promote the transition of the 2H phase and finally thermodynamically stabilize the 1T-MoS 2 nanosheets. 106 Moreover, some non-metal elements like O, 107 P, 108 and S 109 are usually doped into highly conductive MXene nanosheets via substituting the lattice C or N atoms. Recently, Peng and co-workers synthesized the single-atomic Ru doped Mo 2 CT x MXene nanosheets by reaction in solution to improve the catalytic activity (Fig.…”

Section: Defect Engineering Of 2d Materialsmentioning

confidence: 99%

Defect engineering of two-dimensional materials for advanced energy conversion and storage

2023

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Section: Defect Engineering Of 2d Materialsmentioning

confidence: 99%

Defect engineering of two-dimensional materials for advanced energy conversion and storage

2023

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“…Typically, TMPs are synthesized by precipitation from solution, hydrothermal methods, molten salt, microwave, or mechanochemical syntheses [20][21][22][23][24][25] . Thereby, highly crystalline and/or amorphous bulk TMPs can be obtained.…”

Section: Introductionmentioning

confidence: 99%

“…[16][17][18][19] Typically, TMPs are synthesized by precipitation from solution, hydrothermal methods, molten salt, microwave, or mechanochemical syntheses. [20][21][22][23][24][25] Thereby, highly crystalline and/or amorphous bulk TMPs can be obtained. In particular, the amorphous state is often desired, because the absence of long-range ordering in TMPs enhances their reaction kinetics compared to the crystalline equivalents.…”

mentioning

confidence: 99%

Template-free synthesis of mesoporous and amorphous transition metal phosphate materials

et al. 2023

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“…Typically, TMPs are synthesized by precipitation from solution, hydrothermal methods, molten salt, microwave, or mechanochemical syntheses [15][16][17][18][19][20] Thereby, highly crystalline and/or amorphous bulk TMPs can be obtained. In particular, the amorphous state is often desired, because the absence of long-range ordering in amorphous TMPs enhances their reaction kinetics compared to the crystalline equivalents 21,22 .…”

Section: Introductionmentioning

confidence: 99%

Template-free synthesis of mesoporous and amorphous transition metal phosphate materials

Karafiludis

Buzanich

Heinekamp

et al. 2022

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We present how mesoporosity can be engineered in transition metal phosphate (TMPs) materials in a template-free manner. The method involves a transformation of a precursor metal phosphate phase, M-struvite (NH4MPO4·6H2O, M = Mg2+, Ni2+, Co2+, Nix2+Co1-x2+), and it relies on the thermal decomposition of crystalline M-struvite precursors to an amorphous and simultaneously mesoporous phase which forms while degassing of NH3 and H2O from crystals. The temporal evolution of mesoporous frameworks and the response of the coordination metal coordination environment were followed with in-situ and ex-situ scattering and diffraction, as well as X -ray spectroscopy. We highlight the systematic differences in absolute surface area, pore shape, pore size, and phase transitions depending on a metal cation present in the analogous M-struvites. In a complex amorphous structure, thermally decomposed Mg-, Ni- and NixCo1-x-struvites exhibit high surface areas and pore volumes (240 m²g-1 and 0.32 cm-3 g-1 for Mg and 90 m²g-1 and 0.13 cm-3 g-1 for Ni) for phosphate materials with a spherical to channel-like pore geometry. Despite sharing the same precursor struvite structure, different amorphous and mesoporous structures were obtained in the chemical systems. We propose that the low-cost, environmentally friendly M-struvites could be obtained as recycling products from industrial and agricultural wastewaters. These waste products could be then upcycled into mesoporous TMPs through a simple thermal treatment for further applications in (electro)catalysis.

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Microwave-assisted rapid synthesis of titanium phosphate free phosphorus doped Ti₃C₂ MXene with boosted pseudocapacitance

Abstract: Phosphorous (P) doping is well-known for the variety of energy materials with improved energy storage performances, however, it remains rarely explored for Ti3C2 MXene. The primary bottleneck of developing P...

Cited by 38 publications

References 91 publications

Defect engineering of two-dimensional materials for advanced energy conversion and storage

Defect engineering of two-dimensional materials for advanced energy conversion and storage

Template-free synthesis of mesoporous and amorphous transition metal phosphate materials

Template-free synthesis of mesoporous and amorphous transition metal phosphate materials

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Microwave-assisted rapid synthesis of titanium phosphate free phosphorus doped Ti3C2 MXene with boosted pseudocapacitance

Abstract: Phosphorous (P) doping is well-known for the variety of energy materials with improved energy storage performances, however, it remains rarely explored for Ti3C2 MXene. The primary bottleneck of developing P...

Cited by 38 publications

References 91 publications

Defect engineering of two-dimensional materials for advanced energy conversion and storage

Defect engineering of two-dimensional materials for advanced energy conversion and storage

Template-free synthesis of mesoporous and amorphous transition metal phosphate materials

Template-free synthesis of mesoporous and amorphous transition metal phosphate materials

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Microwave-assisted rapid synthesis of titanium phosphate free phosphorus doped Ti₃C₂ MXene with boosted pseudocapacitance