It also provides an insight into approaches for obtaining hybrid silk-based materials via 3D printing.ģD printing carbon nanotubes functional materials gold nanoparticles hybrids inorganic nanoparticles quantum dots silver nanoparticles spider silk. This review summarizes and discusses evidence of the use of various kinds of inorganic compounds in spider silk modification intended for a multitude of applications. Therefore, it is not surprising that hybrid materials based on spider silk and inorganic nanomaterials are considered extremely promising for potentially attractive applications in various fields, from optics and photonics to tissue regeneration. Functional properties of nanoparticles can be implemented to macro-scale components to produce silk-based hybrid materials, while spider silk fibers can serve as a matrix to combine the benefits of the functional components. The purpose of using these inorganic nanomaterials is primarily due to their chemical nature, enhanced by large surface areas and quantum size phenomena. Modifying spider silk with various inorganic nanomaterials with specific properties has led to the development of the hybrid materials with improved functionality. Spider silk offers a unique combination of desirable aspects such as biocompatibility, extraordinary mechanical properties, and tunable biodegradability, which are superior to those of most natural and engineered materials. Numerous natural and artificial polymers have already demonstrated their ability to serve as a basis for bio-composites. Motivating students and researchers is the key to have a successful and ethic research environment.High-performance functional biomaterials are becoming increasingly requested. I believe that there is not better way to start my Horizon Europe project than sharing the experience gained while preparing the proposal. Also thank to one of the organizer Patrik Toula for the splendid job done! I did my part by sharing my experience in getting funds for young researchers (Horizon 2021-2022, Marie Skłodowska-Curie Actions), for which I truly have to thank Caroline Grabbe, Ninad Bondre and Anna Rising for they have been my mentors in this. This course aims to bring many brilliant minds together, helping them creating their own career with the support of EU. Sensitivity, durability, and multifunction are the essential requirements for a high-performance wearable sensor. On the I had the honor of participating as a speaker to “Navigating Brussels”, a crash course designed by Euro League for Life Sciences ( ) for young researchers. In summary, EPASS will integrate novel methodologies to create a new generation of scalable green materials with breakthrough potential in soft electronics, while simultaneously shaping a new research line – functionalized spider silk – which I will pioneer.ĭr. With additional expertise gained from a secondment and short-term visit, EPASS will create a strong foundation for state-of-the-art research and extensive knowledge sharing between researchers and organisations. After establishing an optimized spinning protocol for the introduction of nanomaterials, a new generation of modified silk fibres will be spun and analysed morphologically, mechanically and electromagnetically, delivering a novel strategy for generating silk fibres with custom-made properties that are highly needed in the area of soft electronics. ![]() Although remarkable, the fibres generated still require improved mechanical and electromagnetic properties to achieve their full potential in the envisioned biomedical and soft electronics applications.īy combining the host’s expertise in protein biochemistry and biotechnology with my skills in mechanical and materials engineering, EPASS aims to improve the mechanical and electromagnetic properties of artificial silk fibres by spinning fibres from protein solutions containing carbon nanotubes and magnetic nanoparticles. Anna Rising (host) has recently developed a biomimetic spinning setup for generating high quality artificial silk fibres that uses water as the sole solvent and scales volume for economically feasible mass-production. Unfortunately, the cannibalistic nature of spiders makes it impossible to harvest natural silk at large quantities, whereas artificial silk production has historically suffered from poor quality, low yields, and environmentally harmful protocols. ![]() Spider silk is a material with remarkable biological and mechanical properties.
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