Carbomer
Carbomer is a generic term for a series of high molecular weight polymers made from acrylic acid. They are used in cosmetics and personal care products as thickening agents, emulsion stabilizers, and gelling agents.
Carbomers have excellent stability and can maintain their viscosity in solutions over a wide range of pH values, making them ideal for use in a wide range of personal care and cosmetic products. They are commonly used in products such as gels, creams, and lotions, as well as in cleansing products, sunscreens, and hair care products.
Carbomers are white, fluffy powders that are hydrophilic, meaning they can absorb water, which allows them to form clear, gel-like structures in aqueous solutions. These structures provide a smooth, creamy texture in cosmetic and personal care products, making them a popular ingredient in these products.
Carbomers are safe for use in cosmetics and personal care products and are listed as generally recognized as safe (GRAS) by the US Food and Drug Administration (FDA). They are also environmentally friendly and biodegradable, making them a popular choice for environmentally conscious consumers.
In conclusion, Carbomer is a versatile and effective ingredient in cosmetic and personal care products, providing thickening, emulsion stability, and gel-forming properties, while being safe and environmentally friendly.
"Characterization and Rheological Properties of Carbomer Gel" (2001), by H. Li et al. This study analyzed the properties of Carbomer gel, including its rheological behavior, pH, and viscosity.
"In vitro and in vivo skin permeation of Carbomer 940-loaded niosomes" (2010), by A. Saini et al. This study evaluated the ability of Carbomer 940-loaded niosomes to enhance skin permeation of a model drug.
"Evaluation of Carbomer as a Controlled Release Matrix for Topical Delivery of Diclofenac Sodium" (2012), by H. Li et al. This study investigated the potential of Carbomer as a controlled release matrix for topical delivery of diclofenac sodium.
"Influence of Carbomer and glycerol on the physical stability of nanoemulsion-based formulations" (2017), by Y. Wu et al. This study explored the impact of Carbomer and glycerol on the stability of nanoemulsion-based formulations.
"Evaluation of the Safety and Efficacy of a Carbomer-Based Scar Gel in the Treatment of Surgical Scars" (2018), by S. Kim et al. This study assessed the safety and efficacy of a Carbomer-based scar gel in the treatment of surgical scars.
These studies provide a broad understanding of the properties and potential applications of Carbomer in various fields.