Dispersible

Dispersible refers to a substance's ability or characteristic to be broken down into smaller particles and scattered or distributed evenly throughout a medium, such as a liquid or gas. This process often involves suspending or dissolving the substance, ensuring a uniform mixture where the individual components are not easily separated. The degree of dispersibility can vary greatly depending on the substance's properties and the nature of the medium. Factors influencing dispersibility include particle size, surface tension, and the presence of any agents that can aid in the process, like surfactants. Ultimately, a dispersible material allows for easier handling, application, and reaction in various contexts.

Dispersible meaning with examples

• The fine powder was designed to be readily dispersible in water. When added to the liquid, it formed a stable suspension, which allowed for even distribution of the active ingredients in the formulation. This property made the powder ideal for creating a sprayable solution to apply to plants, ensuring thorough coverage and optimal effectiveness against pests and diseases.
• The chemist carefully chose a dispersible pigment for the paint. This ensured the color would be evenly distributed throughout the final product. He mixed the pigment with a solvent that would facilitate its dispersion and prevent clumping, which could create inconsistencies in the color's appearance and quality. Thus the paint had an excellent finish and application.
• For the drug to be effectively delivered, it had to be dispersible in the patient's bloodstream. The medication's design included tiny micro-spheres that break down quickly and distribute themselves uniformly after injection. The resulting uniformity facilitated absorption by the patient's cells at a predictable rate, which ensured the medication was effective and eliminated the need for repeated injections.
• To create a uniform soil amendment, it was important the fertilizer was dispersible in water. When added to the irrigation system, the fertilizer dissolved and spread uniformly around the roots, optimizing nutrient availability. This dispersal made it easier for the plants to absorb the necessary nutrients and created conditions for healthy growth, as any non-dispersible fertilizer would have clumped and not provided any benefit.