The ActiveHydrogels project aims to develop innovative hydrogels enriched with carefully selected natural plant extracts, intended for advanced dermatological and cosmetic applications. Hydrogels are well known for their gel-like structure and exceptional water retention capabilities, making them ideal carriers of active substances. This project introduces a novel approach by combining modern hydrogel technology with natural extracts, creating products that offer superior skin hydration and targeted therapeutic benefits.
The project's primary innovation lies in the integration of specific plant extracts, such as calendula and chamomile, into the hydrogel matrix. Calendula extract is incorporated to enhance skin regeneration, while chamomile extract provides anti-inflammatory and soothing effects. These natural ingredients are chosen based on their well-documented therapeutic properties and synergistic benefits when used in combination with hydrogels.
To ensure scientific rigor, the project employs a detailed experimental design, including advanced hydrogel synthesis techniques and comprehensive characterization methods. The expected outcomes include the development of hydrogels with enhanced mechanical properties, increased bioavailability of active compounds, and improved efficacy in skin care applications. This research also explores the stability and release kinetics of the active ingredients within the hydrogel network.
The ActiveHydrogels project addresses specific dermatological needs, such as the care of dry and sensitive skin, as well as the treatment of minor skin injuries and inflammations. By focusing on these applications, the project aims to provide practical solutions for common skin conditions, enhancing the quality of life for users.
Conducted within the SMART-MAT Functional Materials Scientific Club at Cracow University of Technology, this project benefits from an interdisciplinary collaboration and access to cutting-edge material science expertise. The affiliation with SMART-MAT and funding from FutureLab underscore the project's commitment to advancing scientific knowledge and fostering innovation in functional materials. This research is conducted by students, who develop their knowledge and experience through the practical design of biomaterials.
