The Greek words "profiles," which mean "life," and "mimesis," which means "significance to emulate," are what give rise to the term "biomimetics." At first, it meant developing any new material or invention that is inspired by nature or comes from nature. Biomimetics refers to the use of bioinspired materials or particles in science. These materials or particles can be designed to replace conventional designs or they can be determined from living organic entities that replicate natural components. The integration of novel, extremely complex biomaterials and procedures to recover and replace lost structures has been the primary focus of the growing field of tissue designing and regenerative medicine (TERM) over the past ten years. However, the development of cutting-edge, precise bio-substitutes for various tissues and organs has always remained a challenge due to the intricate life structures and functions of the human body [1].
A wide range of treatments, from macromolecular to nanomolecular, can be found in the craniofacial area, which is home to living oddities and contains the hardest to the softest tissues. To achieve the highest level of organic similarity to normal tissues, it is necessary to manage the unique characteristics of each organ and tissue. Biomimetic dentistry has made significant progress in the design and extraordinary recovery of dental hard and delicate tissues. We think that biomimetic improvements are very important for designing dentofacial structures well. This ongoing survey provides a brief overview of the significant amount of work done to address these points of view over the past ten years. The goal of this study is to provide a guide for new researchers, dentists, and clinicians at all stages of the research process to help them develop a perspective on biomimetics and its significance in clinical treatments, particularly supportive dentistry, oral and maxillofacial surgery, and periodontology [2].