Preparation and optimization of 2,4‐D loaded cellulose derivatives microspheres by solvent evaporation technique

Controlled release herbicide formulations were prepared by microencapsulation using solvent evaporation technique. 2,4‐D was chosen as core material, which was microencapsulated in two cellulose derivatives as matrices: cellulose acetate butyrate butyryl (CAB) and ethylcellulose (EC). The work is intended to produce systems containing the herbicide to reduce its risks by dermal contact, evaporation, or degradation and to control the release of the active agent. The microspheres loaded by 2,4‐D were characterized by scanning electron microscopy and infrared spectroscopy. We have obtained microparticles in the range of D 32 of 42–277 μm with CAB and 88–744 μm with EC by varying the process parameters. The drug entrapment was improved by controlling certain factors such as polymer/solvent ratio, pH of continuous phase, and organic phase solvent. The drug release was established in deionized water at pH = 5.5 and 25°C and the 2,4‐D concentrations were estimated by UV analysis. The release data were analyzed according to Fick's law and the results demonstrate that the release rate can be controlled by modifying the process parameters. © 2006 Wiley Periodicals, Inc. J Appl Polym Sci 103: 2742–2751, 2007