An objective of a present research has been able to prepare as well as analyze Itraconazole Nanocapsules through using emulsion solvent evaporation method. Itraconazole has been overfilled of ethyl cellulose & hydroxypropyl methylcellulose Nanocapsules and that was able to prepare through emulsion solvent evaporation technique. The outcomes like Fourier transform infrared implied a steady identity like Itraconazole Nanocapsules filled as for ethyl cellulose Nanocapsules and then also absence like drug - excipient interplay. Compatibility research findings like FTIR & differential scanning have been used to start investigating that there's no incompatability inside the composition. A morphometric size of the particles like Itraconazole Nanocapsules has been done through SEM. Nanocapsules has been analyzed such as total composition codes has been f1 to f8. A % yield has been obtained to be 73.22% to 88.91%. Drug content has been 65.9 to 98.4%. A size of the particles like Nanocapsules 80 µm to 22 µm, drug entrapment efficiency has been 54.3% to 91.3 %, a drug loading capabilities has been 97.8% to 56.9%. A swellability studies has been 0.6 sec to 1.6 sec. in vitro dissolution studies like best formulation f8 has been did find of being 61.78%. An In-vitro drug dissolution obtained data has been equipped to numerous mathematical equations such like zero order, 1st order, higuchi matrix & korsmeyer peppas model. Itraconazole Nanocapsules continues to follow model having r2 value has been 0.937, 0.399, 0.899, 0.785 & m value has been 1593, 0.061, 11409, 2.560. The discharge of drug out from Nanocapsules increased up of about 45 mints. Itraconazole loaded as for ethyl cellulose & HPMC Nanocapsules have been able to prepare below optimum condition and it display great discharge characteristic features
