In this work, the nano-silver agglomerates and silver colloid generated using evaporation/condensation method and constant output atomizer, respectively. Here a tubular furnace was used to change the morphology of the nano-silver particles. A scanning mobility particle sizer (SMPS), aerosol particle mass analyzer (AMP), Aerotrak 9000 were used to measure the particulate size distribution, mass, alveolar deposited surface area concentration. Agglomerates with mobility diameter in the range from 30-300 nm was sampled using the microorifice-based concentrated nanoparticle sampler (CNS) and then imaged by transmission electron microscopy (TEM). The results showed that number median diameter (NMD) and effective density of silver agglomerates were affected by the morphology. The NMD reduced significantly at 100-200℃, but varied a little for sintering temperature above 200℃. The effective density increased with the sintering temperature was increased, and approached to bulk density of 10.53 g/cm3 at 800℃. We found that NMD and effective density of silver colloid decreased for sintering temperature above 400℃ due to the evaporation of the surfactants. From these measurements, it was found that the fractal dimension (Df) varied from 1.98 to 3.00 as the sintering temperature was increased from ambient to 300℃. This phenomenon was caused by sintering process, followed by partial and complete coalescence of fractal-like agglomerates into spheres. As the TEM images, it was found that the silver agglomerates generated by evaporation/condensation method were formed with several primary particles and irregular, but silver colloids generated by constant output atomizer were coated with the surfactant and close to spherical. We obtained the relationship between the projected area equivalent diameter (dproj) and maximum length (Lavg) can be expressed as Lavg~dproj1.20. To compare the actual values measured by the TSI Aerotrak 9000 and the calculated particle surface area concentration, the number distribution and the lung deposition curves in the alveolar region for reference worker of ICRP Model was used. The results showed that the average surface area shape factor of the evaporation/condensation and constant output atomizer for all sizes were 1.09±0.15 and 9.83±0.05, respectively.