The present study scrutinized some of the crucial advancements in the synthesis and functionalisation of self-assembling biomaterials for application in biomedicine. The basic concept of self-organization was discussed along with the mechanisms and methods involved in its implementation with biomaterials. Further, several recent applications of this technology in the biological and medical domain, and the avenues for future research and development were presented. This study brought to focus the vast potential of basic and applied research involved, especially in the context of hybrids and composites, as well as the difference in pace of new developments for different types of biomolecular materials. As nanobiotechnology matures, the tools and techniques available for developing and controlling self-assembled biomaterials as well as studying their interaction with biological tissue, will grow exponentially. Presently, self-assembly remains a potent tool for the synthesis of functional biomaterials.

本研究仔细研究了自组装生物材料在生物医学中的合成和功能化方面的一些重要进展。讨论了自组织的基本概念以及生物材料实施所涉及的机制和方法。此外，还介绍了该技术在生物和医学领域的一些最新应用，以及未来研究和开发的途径。这项研究重点关注了所涉及的基础和应用研究的巨大潜力，特别是在杂化和复合材料的背景下，以及不同类型生物分子材料的新发展步伐的差异。随着纳米生物技术的成熟，可用于开发和控制自组装生物材料以及研究它们与生物组织相互作用的工具和技术将呈指数级增长。目前，自组装仍然是合成功能性生物材料的有力工具。