NaNanotechnology is defined as an engineering field concerned with understanding, controlling, modifying at the atomic level, and functionalizing materials with dimensions between 1 and 100 nanometers. The most distinguishing feature of nanotechnology compared to microtechnology is the ability to manipulate materials at a smaller scale, coupled with the fact that materials exhibit different properties at the nanoscale. The properties of a material change when one or more of its dimensions are redu
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Edanur Korkmaz
CoCollagen proteins are a component of the extracellular matrix important. They possess biological degradability, low antigenicity, and superior biocompatibility. Collagen enhances the mechanical strength and elasticity of tissues. In addition, it serves as a natural substrate for cell adhesion, proliferation and differentiation. The primary reason for its frequent preference in Biomedical applications is its ability to form cross-linked fibers with enhanced extracellular power and stability. In m
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Edanur Korkmaz

Polymeric BiomaterialsDefinition and ClassificationPolymeric biomaterials are versatile organic macromaterials characterized by diverse physical, mechanical, and chemical properties, making them highly suitable for applications across medical diagnostics, therapeutic delivery, and regenerative medicine, owing to their inherent biocompatibilty.. They can be broadly categorized into:Natural polymers (e.g., collagen, chitosan, alginate, fibrin), valued for biocompatibility and low immunogenicity.Sy
ENEmine Hilal Altıntop
FrLyophilization is a freeze-drying method used to ensure the long-term preservation of biological and chemical substances. In this process, the sample is first frozen, and then water is removed by sublimation—direct transition from the solid (ice) phase to the vapor phase—under low pressure. This removes nearly all the water from the substance, resulting in a dry, stable product. Lyophilization is particularly preferred for heat-sensitive materials because water removal at low temperatures does n
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PINAR GÜNER

Polymers-based biomaterials are polymer-based materials designed to interact with living tissues and systems within the human body in order to perform, support, enhance, or modify their functions. These materials are developed through the integration of fundamental sciences, nanotechnology, and biotechnology, bridging the fields of medicine and engineering. Biocompatibility—the ability of the material to be accepted by the body—is one of their most fundamental requirements. The ease with which t
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