X-ray absorption fine structure study of amorphous metal oxide thin films prepared by photochemical metalorganic deposition

“…The peak of IG6 is ill defined and broadened due to its low crystallinity 33, 34. The 1s→3d pre‐edge is normally forbidden, but it is observed experimentally due to the electric quadrupole coupling 34–36. The pre‐edge position is a sensitive indicator of the relative fraction of Fe 2+ and Fe 3+ ,33, 34, 37 and it is shown in the inset of Figure 2a.…”

“…The 1s→3d pre‐edge is normally forbidden, but it is observed experimentally due to the electric quadrupole coupling 34–36. The pre‐edge position is a sensitive indicator of the relative fraction of Fe 2+ and Fe 3+ ,33, 34, 37 and it is shown in the inset of Figure 2a. The gap of pre‐edge positions of commercial Fe 2 O 3 and Fe 3 O 4 is smaller than that reported in the literature while the pre‐edge position of commercial Fe 3 O 4 is higher.…”

“…637106 from Aldrich) powders were used as references. The peak of IG6 is ill defined and broadened due to its low crystallinity 33, 34. The 1s→3d pre‐edge is normally forbidden, but it is observed experimentally due to the electric quadrupole coupling 34–36.…”

“…The gap of pre‐edge positions of commercial Fe 2 O 3 and Fe 3 O 4 is smaller than that reported in the literature while the pre‐edge position of commercial Fe 3 O 4 is higher. This effect could be attributed to partial oxidation on the surface of the nano‐sized commercial Fe 3 O 4 33, 34. The positions of pre‐edge peaks are obtained from derivatives of the Fe K‐edge profiles.…”

Structure‐Properties Relationship in Iron Oxide‐Reduced Graphene Oxide Nanostructures for Li‐Ion Batteries

“…The peak of IG6 is ill defined and broadened due to its low crystallinity 33, 34. The 1s→3d pre‐edge is normally forbidden, but it is observed experimentally due to the electric quadrupole coupling 34–36. The pre‐edge position is a sensitive indicator of the relative fraction of Fe 2+ and Fe 3+ ,33, 34, 37 and it is shown in the inset of Figure 2a.…”

“…The 1s→3d pre‐edge is normally forbidden, but it is observed experimentally due to the electric quadrupole coupling 34–36. The pre‐edge position is a sensitive indicator of the relative fraction of Fe 2+ and Fe 3+ ,33, 34, 37 and it is shown in the inset of Figure 2a. The gap of pre‐edge positions of commercial Fe 2 O 3 and Fe 3 O 4 is smaller than that reported in the literature while the pre‐edge position of commercial Fe 3 O 4 is higher.…”

“…637106 from Aldrich) powders were used as references. The peak of IG6 is ill defined and broadened due to its low crystallinity 33, 34. The 1s→3d pre‐edge is normally forbidden, but it is observed experimentally due to the electric quadrupole coupling 34–36.…”

“…The gap of pre‐edge positions of commercial Fe 2 O 3 and Fe 3 O 4 is smaller than that reported in the literature while the pre‐edge position of commercial Fe 3 O 4 is higher. This effect could be attributed to partial oxidation on the surface of the nano‐sized commercial Fe 3 O 4 33, 34. The positions of pre‐edge peaks are obtained from derivatives of the Fe K‐edge profiles.…”

Structure‐Properties Relationship in Iron Oxide‐Reduced Graphene Oxide Nanostructures for Li‐Ion Batteries

“…The graded Mo:BiVO 4 has been previously reported for improving diffusion length and charge separation . The PMOD method was previously demonstrated as an effective technique to produce active transition‐metal‐based amorphous electrocatalyst for water oxidation . Here, modification of photoanode by NiO x offers several improvements over the unmodified one.…”

Understanding the Roles of NiO_x in Enhancing the Photoelectrochemical Performance of BiVO₄ Photoanodes for Solar Water Splitting

Supervariate Ceramics: Gelatinous and Monolithic Ceramics Fabricated under Ambient Conditions