The ideal preservative does not exist and, as a formulator, you must do deep research and trials to find the right combination for product and consumer. The time to preserve all kinds of products with a blend of phenoxyethanol and parabens is over, and the preservative selection should be based on several criteria:

• Spectrum activity: the ideal preservative should be able to kill all types of microorganisms that are yeasts, molds, Gram-positive and Gram-negative bacteria. But in general, chemicals active against bacteria are not active against yeasts and molds, and vice versa.
• Compatibility with the other ingredients of the cosmetic formulation: some ingredients could lower the antimicrobial activity (ex. thiazolinones are inactivated by bisulfites and secondary amines).
• Effectiveness at low concentrations: lower concentrations reduce the chances of irritation or other toxicity concerns. If 0.8% phenoxyethanol is not effective, don’t increase to 1%, try with a different preservative.
• Company and product philosophy: companies can blacklist some raw materials for marketing purposes, but consumer’s safety must guide the choice.
• Solubility: as microorganisms grow in the water phase, the more water-soluble and the less oil-soluble the preservative is, the better it will function.
• pH of the finished product: make sur you consider a potential pH drift of ±10% over the shelf life. A slight increase in pH could dramatically decrease the activity of antimicrobials. The activity of benzoic acid is 94% at pH 3, only 1.5% at pH 6! With organic acids, to decrease the pH instead to improve the quantity of acid could be the solution.
• Cost: it should always be secondary. The cost of a recall and the damage to a company’s reputation is too high a price to pay for an inexpensive preservative that fails.
• Regulatory: preservatives must be allowed in the countries where the product is sold and used within any restrictions of use.