NATURALLY DERIVED BIOLOGICAL EXTRACTS

Brand Owner (click to sort) Address Description
ACTICEL LIPOTEC USA, INC. 1097 Yates Street Lewisville TX 75057 naturally derived biological extracts for use in the manufacture of cosmetics, and skin and hair care preparations;
ACTIFIRM ACTIVE ORGANICS, LP 1097 Yates Street Lewisville TX 75057 naturally derived biological extracts for use in the manufacture of cosmetics, and skin care and hair care;
ACTIFIRM ACTIVE ORGANICS, INC. 1097 Yates Street Lewisville TX 75057 Naturally derived biological extracts for use in the manufacture of cosmetics, skin care and hair care products;
ACTIPLUS LIPOTEC USA, INC. 1097 Yates Street Lewisville TX 75057 naturally derived biological extracts for use in the manufacture of cosmetics, and skin and hair care preparations;
ACTIZYME ACTIVE ORGANICS, INC. 1097 Yates Street Lewisville TX 75057 naturally derived biological extracts for use in the manufacture of over-the-counter cosmetic preparations;
BIOPHYTE ACTIVE ORGANICS, INC. 1097 Yates Street Lewisville TX 75057 naturally derived biological extracts for use in the manufacture of cosmetics, and hair and skin care;
BIOPHYTE ACTIVE ORGANICS, INC. 1097 Yates Street Lewisville TX 75057 naturally derived biological extracts for use in the manufacture of cosmetics, and skin and hair care;
 

Where the owner name is not linked, that owner no longer owns the brand

    
Technical Examples
  1. The present invention is focused on a revolutionary, low-cost (highly-scaleable) approach for the mass production of three-dimensional microcomponents: the biological reproduction of naturally-derived, biocatalytically-derived, and/or genetically-tailored three-dimensional microtemplates (e.g., frustules of diatoms, microskeletons of radiolarians, shells of mollusks) with desired dimensional features, followed by reactive conversion of such microtemplates into microcomponents with desired compositions that differ from the starting microtemplate and with dimensional features that are similar to those of the starting microtemplate. Because the shapes of such microcomponents may be tailored through genetic engineering of the shapes of the microtemplates, such microcomposites are considered to be Genetically-Engineered Materials (GEMs).