| Clear Shampoo with Ferma® SL | Locus Performance Ingredients | Locus PI’s shampoo formulations utilize Ferma® S sophorolipid ingredients as non-toxic alternatives to legacy surfactants that do not require amphoteric co-surfactants such as betaines. These biosurfactants have a high degree of synergy with cellulosic ad...view more Locus PI’s shampoo formulations utilize Ferma® S sophorolipid ingredients as non-toxic alternatives to legacy surfactants that do not require amphoteric co-surfactants such as betaines. These biosurfactants have a high degree of synergy with cellulosic additives, like xanthan gum, to produce viscosity and rheologies similar to traditional salt-thickened formulations. view less | ||
| Clear Shampoo with Ferma® SH | Locus Performance Ingredients | Locus PI’s shampoo formulations utilize Ferma® S sophorolipid ingredients as non-toxic alternatives to legacy surfactants that do not require amphoteric co-surfactants such as betaines. These biosurfactants have a high degree of synergy with cellulosic ad...view more Locus PI’s shampoo formulations utilize Ferma® S sophorolipid ingredients as non-toxic alternatives to legacy surfactants that do not require amphoteric co-surfactants such as betaines. These biosurfactants have a high degree of synergy with cellulosic additives, like xanthan gum, to produce viscosity and rheologies similar to traditional salt-thickened formulations. view less | ||
| 2-in-1 Shampoo/Conditioner | Locus Performance Ingredients | Locus PI’s shampoo formulations utilize Ferma® S sophorolipid ingredients as non-toxic alternatives to legacy surfactants that do not require amphoteric co-surfactants such as betaines. These biosurfactants have a high degree of synergy with cellulosic ad...view more Locus PI’s shampoo formulations utilize Ferma® S sophorolipid ingredients as non-toxic alternatives to legacy surfactants that do not require amphoteric co-surfactants such as betaines. These biosurfactants have a high degree of synergy with cellulosic additives, like xanthan gum, to produce viscosity and rheologies similar to traditional salt-thickened formulations. view less |
