A mixed-flow reactor for the generation of UF5 nanoparticles equipped with
an in situ size-monitoring system, a LPDMA (low-pressure differential mobil
ity analyzer), was developed to experimentally investigate the nanoparticle
growth mechanism. The concentration of photoproduced UF5 molecules was con
trolled by changing three factors: (I) the concentration of the feed UF6 ga
s, (II) the laser pulse energy of the irradiation, and (III) the repetition
rate of the laser pulses. The dependence of the volumetric average diamete
r of the photoproduced particles on the UF5 nascent concentration in all th
ree cases was found to be very similar. The result strongly suggests that t
he reactor functions as a mixed-flow reactor under a complete mixing condit
ion. The particle size measured by the LPDMA was found to be in the range o
f 6 to 11 nm. and it was approximately proportional to the power 0.3 of the
initial concentration of photoproduced UF5 molecules.