During the atomic layer deposition (ALD) of ZnO films on a bulk quantity of high surface area particles, the thermal decomposition of diethlyzinc (DEZ) is problematic at normal operating temperatures. A low-temperature pathway to ZnO ALD on bulk quantities of nanoparticles was studied using concentrated H2O2 as the oxidant in a fluidized bed reactor. Decreasing the operating temperature effectively mitigated DEZ decomposition, but caused liquid bridging of particles. The mechanisms behind the non-ideal behaviors associated with high temperature precursor decomposition and low-temperature liquid bridging are discussed. An optimal deposition temperature was observed at 100 degrees C to balance these effects. (C) 2008 Elsevier B.V. All rights reserved.