LiFePO<sub>4</sub> Particles Coated with N-Doped Carbon Membrane

Meng, Yanshuang; Han, Wangqing; Zhang, Zhong; Zhu, Fuliang; Zhang, Yue; Wang, Dajian

doi:10.1166/jnn.2017.12869

Cited by 15 publications

(4 citation statements)

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“…to prepare a N-doped carbon membrane under microwave irradiation. This membrane had high discharge capacity and excellent cyclic performance especially relative to membranes synthesized from glucose as a carbon source [132]. Because of the absorption properties of the IL, a uniform and network-like N-doped carbon membrane was coated on the surface of LiFePO to improve its electronic conductivity.…”

Section: Meng Et Al Used Il 1-butyl-3-methylimidazolium Dicyanamide (...mentioning

confidence: 99%

Polymers and Ionic Liquids

Demissie,

Ajibade,

Kinhoun

et al. 2023

Handbook of Ionic Liquids

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Section: Meng Et Al Used Il 1-butyl-3-methylimidazolium Dicyanamide (...mentioning

confidence: 99%

Polymers and Ionic Liquids

Demissie,

Ajibade,

Kinhoun

et al. 2023

Handbook of Ionic Liquids

View full text Add to dashboard Cite

show abstract

“…Meng et al used IL 1-butyl-3-methylimidazolium dicyanamide ([Bmim][N(CN) ]) as a carbon source to prepare a N-doped carbon membrane under microwave irradiation. This membrane had high discharge capacity and excellent cyclic performance especially relative to membranes synthesized from glucose as a carbon source [132]. Because of the absorption properties of the IL, a uniform and network-like N-doped carbon membrane was coated on the surface of LiFePO to improve its electronic conductivity.…”

Section: Other Carbon Materialsmentioning

confidence: 99%

Polymers and Ionic Liquids

2020

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In the past few years, the scientific community, including in academic and industrial research, has made unprecedented efforts to develop new functional polymeric nanomaterials, in terms of water or gas barriers, electrical, mechanical, fire retardancy, or self-healing properties. In order to achieve this, the introduction of organic-inorganic hybrids, based on silica, carbon nanotubes and layered silicates, or ionomers and block copolymers, have been widely reported in the literature.Very recently, ionic liquids that are organic salts have demonstrated their great potential as new components of advanced polymer materials. In fact, they can be used as interfacial agents of nanoparticles to develop high performance nanocomposites, as compatibilizing agents of polymer blends, as electrolytes in batteries, as flame retardant of polymer materials, as structuration and self-healing agents of thermoplastic and thermosets, and as processing aids of renewable resources.Thus, the main objective of this Special Issue is to highlight a glimpse of the real potential of ionic liquids in polymer nanoscience.

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“…Meng et al used IL 1-butyl-3-methylimidazolium dicyanamide ([Bmim][N(CN) 2 ]) as a carbon source to prepare a N-doped carbon membrane under microwave irradiation. This membrane had high discharge capacity and excellent cyclic performance especially relative to membranes synthesized from glucose as a carbon source [132]. Because of the absorption properties of the IL, a uniform and network-like N-doped carbon membrane was coated on the surface of LiFePO 4 to improve its electronic conductivity.…”

Section: Preparation Of Carbon-based Compositesmentioning

confidence: 99%

New Developments in Material Preparation Using a Combination of Ionic Liquids and Microwave Irradiation

et al. 2019

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During recent years, synthetic methods combining microwaves and ionic liquids became accepted as a promising methodology for various materials preparations because of their high efficiency and low energy consumption. Ionic liquids with high polarity are heated rapidly, volumetrically and simultaneously under microwave irradiation. Hence, combination of microwave irradiation as a heating source with ionic liquids with various roles (e.g., solvent, additive, template or reactant) opened a completely new technique in the last twenty years for nanomaterials and polymers preparation for applications in various materials science fields including polymer science. This review summarizes recent developments of some common materials syntheses using microwave-assisted ionic liquid method with a focus on inorganic nanomaterials, polymers, carbon-derived composites and biomass-based composites. After that, the mechanisms involved in microwave-assisted ionic-liquid (MAIL) are discussed briefly. This review also highlights the role of ionic liquids in the reaction and crucial issues that should be addressed in future research involving this synthesis technique.

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LiFePO₄ Particles Coated with N-Doped Carbon Membrane

Cited by 15 publications

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Polymers and Ionic Liquids

Polymers and Ionic Liquids

Polymers and Ionic Liquids

New Developments in Material Preparation Using a Combination of Ionic Liquids and Microwave Irradiation

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LiFePO4 Particles Coated with N-Doped Carbon Membrane

Cited by 15 publications

References 0 publications

Polymers and Ionic Liquids

Polymers and Ionic Liquids

Polymers and Ionic Liquids

New Developments in Material Preparation Using a Combination of Ionic Liquids and Microwave Irradiation

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LiFePO₄ Particles Coated with N-Doped Carbon Membrane