posted on 2015-03-05, 00:00authored byXihong Peng, Man Li, Candace K. Chan
Transition
metal hydroxyl phosphate compounds have attracted recent
attention for catalytic and magnetic applications. Here, we present
a detailed analysis on the properties of (Cu1–xCox)2(OH)PO4 (0 ≤ x ≤ 1) compounds based
on the mineral libethenite. Powders were synthesized using hydrothermal
methods, and the photocatalytic activity was evaluated with an Fe3+/Fe2+ redox couple. Introduction of small fractions
of Co to Cu2(OH)PO4 increased the photocurrent
generation, but greater Co substitution caused it to decrease, with
Co2(OH)PO4 showing the lowest photocurrent.
The electronic band structure and density of states (DOS) were investigated
using standard density functional theory (DFT) and hybrid functional
methods. Hybrid DFT provided a better description of the electronic
properties, especially the localized Cu and Co d electrons, in good
agreement with the experimentally observed band gaps. The addition
of Co to Cu2(OH)PO4 led to formation of bands
within the band gap arising from Co 3d orbitals, which lowered the
band gap <3 eV and changed the band-gap transition from a ligand-to-metal
charge transfer (LMCT) to a metal-to-metal charge transfer (MMCT).
However, higher concentrations of Co were detrimental to photocurrent
generation as a result of the formation of a 3.7 eV MMCT and other
electronic factors that could hinder charge separation.