Fluorine-Rich, Hydrophobic Graphite Fluoride with Improved Charge Transport/Storage Properties Produced by Gamma Irradiation

Maluangnont, Tosapol; Chaithaweep, Kanokwan; Sangtawesin, Tanagorn; Khamman, Orawan; Vittayakorn, Naratip

doi:10.1021/acs.jpcc.4c02208

J. Phys. Chem. C

2024

DOI: 10.1021/acs.jpcc.4c02208

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Fluorine-Rich, Hydrophobic Graphite Fluoride with Improved Charge Transport/Storage Properties Produced by Gamma Irradiation

Tosapol Maluangnont,

Kanokwan Chaithaweep,

Tanagorn Sangtawesin

et al.

Abstract: It is known that fluorine-containing carbon materials are highly insulating and exhibit low dielectric permittivity due to the presence of covalent C–F bonds and F atoms with small polarizability. These electrical properties can be improved by defluorination (F loss) and by partial restoration of the aromatic character of the carbon networks. Contrary to this knowledge, we show herein that γ-irradiation of graphite fluoride (CF) n improves its conductivity and charge transport/storage properties while preserv… Show more

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Sodium-Poor, Hydroxyl-Rich, Defective Na₂Ti₃O₇ Prepared by γ-Irradiation and Its Enhanced Proton Conductivity

Maluangnont,

Sangtawesin,

Pulphol

et al. 2024

Inorg. Chem.

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The use of γ-irradiation to tailor the physicochemical properties of materials is not widely applied to layered alkali metal oxides. Herein, we show that γ-irradiation (up to 400 kGy) of Na 2 Ti 3 O 7 leads to a sodium-poor, hydroxyl-rich analogue where the layered structure, plate-like morphology, and textural properties are preserved. The deintercalation of sodium ions modifies the Ti−O bond lengths and expands the unit cell; the latter is supported by density functional theory (DFT) calculations. 23 Na solidstate NMR suggests the transport of the symmetric, 7-fold Na2 sites to an intermediate environment, which is closer to the asymmetric, 9-fold Na1 sites. An 8 wt % mass loss (1.4 mol water/mol titanate) is observed, indicating an increased concentration of protons/hydroxyls. These hydroxyl groups (i.e., lattice protons) possess higher thermal stability than solely surface-adsorbed ones in the nonirradiated sample. At 200−400 kGy, the proton conduction (50 °C and ∼70% RH) of ∼10 −6 S•cm −1 is 1 order of magnitude larger than that in the nonirradiated sample; the relaxation time decreases from 30 to 2−6 μs with γ-irradiation. The γ-dose dependence of dielectric loss is also present and analyzed using the Jonscher universal power law, indicating the low-frequency dispersion behavior characteristics of high charge densities.

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Sodium-Poor, Hydroxyl-Rich, Defective Na₂Ti₃O₇ Prepared by γ-Irradiation and Its Enhanced Proton Conductivity

Maluangnont,

Sangtawesin,

Pulphol

et al. 2024

Inorg. Chem.

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Fluorine-Rich, Hydrophobic Graphite Fluoride with Improved Charge Transport/Storage Properties Produced by Gamma Irradiation

Cited by 1 publication

References 52 publications

Sodium-Poor, Hydroxyl-Rich, Defective Na₂Ti₃O₇ Prepared by γ-Irradiation and Its Enhanced Proton Conductivity

Sodium-Poor, Hydroxyl-Rich, Defective Na₂Ti₃O₇ Prepared by γ-Irradiation and Its Enhanced Proton Conductivity

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Fluorine-Rich, Hydrophobic Graphite Fluoride with Improved Charge Transport/Storage Properties Produced by Gamma Irradiation

Cited by 1 publication

References 52 publications

Sodium-Poor, Hydroxyl-Rich, Defective Na2Ti3O7 Prepared by γ-Irradiation and Its Enhanced Proton Conductivity

Sodium-Poor, Hydroxyl-Rich, Defective Na2Ti3O7 Prepared by γ-Irradiation and Its Enhanced Proton Conductivity

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Sodium-Poor, Hydroxyl-Rich, Defective Na₂Ti₃O₇ Prepared by γ-Irradiation and Its Enhanced Proton Conductivity

Sodium-Poor, Hydroxyl-Rich, Defective Na₂Ti₃O₇ Prepared by γ-Irradiation and Its Enhanced Proton Conductivity