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METHOCEL™ hydroxypropyl methylcellulose can be used to improve the stability of active ingredients in suspension concentrates. To demonstrate this, the particle size distribution of a model herbicide suspension concentrate was tested utilizing xanthan gum and METHOCEL™ F4M as stabilizers. Xanthan gum was chosen for comparison as it is currently used in many commercial suspension concentrate formulations as a cost-effective stabilizer. The contents and concentration of the herbicide suspension are detailed below.
Testing was performed after the initial suspension of the active ingredient, Metribuzin, and after two weeks at an elevated temperature (54°C) to determine the amount of crystal particle growth that occurred during storage.
The charts below show the results of particle size distribution testing:
As mentioned, due to its cost-effectiveness, xanthan gum is commonly used in suspension concentrates as a rheology modifier and stabilizer. Even though improved stability of the formulation may be desired, complete replacement of xanthan gum in a commercial formulation may be cost prohibitive. In these cases, METHOCEL™ can be blended with xanthan gum to inhibit crystal growth and improve the suspension stability of the active ingredient while minimizing raw material costs. Particle size distribution of the same model formulation based on Metribuzin was tested with a blend of xanthan gum and METHOCEL™ F4M used as the stabilizer. This was compared to the previous formulation stabilized by only xanthan gum to demonstrate how METHOCEL™ improves suspension stability when blended with xanthan gum.
The particle size distribution testing results show that for storage at room temperature, METHOCEL™ F4M outperformed METHOCEL™ F50 and K4M as an active ingredient stabilizer. However, at elevated temperatures, both METHOCEL™ F4M and F50 worked well to stabilize Metribuzin.
Additionally, the impact of the concentration of METHOCEL™ on active ingredient stability was evaluated. In this instance, METHOCEL™ F4M was blended with xanthan gum at varying levels for use as the stabilizer. After storage for two weeks, particle size distribution was measured at room temperature (RT) and 54°C.
The data above show that during storage at room temperature and elevated temperature, increasing the level of METHOCEL™ F4M in the suspension did not benefit active ingredient stability. This indicates that crystal growth inhibition of Metribuzin is optimized using METHOCEL™ F4M at very low use rates.
Generally, there is no one-size-fits-all solution for stabilizers used in solution concentrates. The optimal grade of METHOCEL™ and use level must be explored for each formulation and active ingredient type. There are many commercially available grades of METHOCEL™ that range in properties of methoxyl and hydroxypropyl substitution as well as molecular weight. ChemPoint is ready to help you find the proper grade of METHOCEL™ for your formulation.
When used at low levels as a stabilizer in suspension concentrates, METHOCEL™ hydroxypropyl methylcellulose can prevent active ingredient crystal particle growth. The stability provided by METHOCEL™ allows for improved potency of the active ingredient over longer shelf life. This improved potency also reduces the amount of active ingredient needed in the formulation, leading to reduced formulation costs. To summarize, the benefits of using METHOCEL™ as a stabilizer for solution concentrates are listed below.
While METHOCEL™ F4M has proved to be the optimal stabilizer for the model Metribuzin suspension presented in this article, the appropriate grade and use levels for your active ingredients and suspension concentrate formulations will vary. Contact us below to discuss the right grade of METHOCEL™ to stabilize your active ingredients.
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