Received: September 14, 2007

In Final Form: November 9, 2007

Abstract:

We have characterized the initial charge carrier trapping and recombination processes in suspensions of exfoliated calcium niobate nanosheets derived from the Dion Jacobsen phase KCa₂Nb₃O₁₀. Niobate nanosheets have previously been found to catalyze hydrogen generation in photochemical water-splitting reactions. Photo-generated charge carriers relaxed with second-order kinetics on a sub-nanosecond time scale that depended on the nanosheet size. Methanol was used as a sacrificial electron donor to separate the electron and hole dynamics, and the photo-oxidation dynamics was found to directly compete with electron-hole recombination. Absorption spectra for trapped carriers were determined and used to separately analyze the trapped electron and hole dynamics in [H_1-xCa₂Nb₃O₁₀]^x- (x = 0.15-0.20) sheets in water. Surface modification by 3-amino-propyl(trimethoxy)silane was found to quench trapped carrier absorptions, resulting in an observed optical gain.

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