2016
DOI: 10.1039/c6ra11877a
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Direct conversion mechanism from BiOCl nanosheets to BiOF, Bi7F11O5 and BiF3 in the presence of a fluorine resource

Abstract: In this work, we report the facile conversion from BiOCl nanosheets to BiOF, Bi 7 F 11 O 5 and BiF 3 by a novel ion exchange approach, in which the effects of fluorine source, F/Bi molar ratio and reaction medium (ethanol/water) on the products are mainly investigated. A plausible conversion mechanism is proposed to illustrate the formation of BiOF, Bi 7 F 11 O 5 and BiF 3 . Furthermore, the photocatalytic activities of the samples are also investigated. It is amazing that under ultraviolet light irradiation (… Show more

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Cited by 18 publications
(5 citation statements)
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“…Generally, the halogens n p orbitals are located at higher energies than O 2p ones, except for X = F due to its higher electronegativity . Varying the halogen size was found to cause an upward shift of valence band maximum (VBM), in accordance with the reduced electronegativity from F to I, and a downward shift of the Bi-dominated conduction band minimum. Consequently, the band gaps of BiOX compounds decrease from 4.01 for BiOF to 1.85 eV for BiOI (see Table ). Hence, the light absorption is extended from the ultraviolet (for BiOF and BiOCl) to the visible region (for BiOBr and BiOI) …”
Section: Introductionmentioning
confidence: 97%
“…Generally, the halogens n p orbitals are located at higher energies than O 2p ones, except for X = F due to its higher electronegativity . Varying the halogen size was found to cause an upward shift of valence band maximum (VBM), in accordance with the reduced electronegativity from F to I, and a downward shift of the Bi-dominated conduction band minimum. Consequently, the band gaps of BiOX compounds decrease from 4.01 for BiOF to 1.85 eV for BiOI (see Table ). Hence, the light absorption is extended from the ultraviolet (for BiOF and BiOCl) to the visible region (for BiOBr and BiOI) …”
Section: Introductionmentioning
confidence: 97%
“…In another method, by using a novel ion-exchange approach, Kan et al produced pure BiF 3 (JCPDS: 73-1988). Here, the NH 4 F solution was used for the constituent of F while BiOCl was utilized to attain the element of Bi in accordance with the molar ratio (RF = F/Bi) of 8:1 [36]. Below to the molar ratio of 8:1 (RF), the final product consisted of a small amount of Bi 7 F 11 O 5 as an impurity phase [36].…”
Section: Resultsmentioning
confidence: 99%
“…Here, the NH 4 F solution was used for the constituent of F while BiOCl was utilized to attain the element of Bi in accordance with the molar ratio (RF = F/Bi) of 8:1 [36]. Below to the molar ratio of 8:1 (RF), the final product consisted of a small amount of Bi 7 F 11 O 5 as an impurity phase [36]. Contrary to the above reported studies, in the present method, the ratio of O/F was controlled via a chemical bath of Bi 2 O 3 in a concentrated HF solution.…”
Section: Resultsmentioning
confidence: 99%
“…The band gaps of the anodes are over twice as large as typical cathode materials, for example, ~2 eV of CuF 2 21,22 and ~4 eV of BiF 3 23,24 . The large band gap of anode materials results in poor electronic conductivity, making it di cult for F ions to exchange electrons at the interfaces between a metal and a metal uoride inside active anodic materials during the (de) uorination process.…”
Section: Introductionmentioning
confidence: 98%