Recent trends of 3D printing based on starch-hydrocolloid in food, biomedicine and environment

People are exploring the potential application of 3D printing in food, biomedicine and environment, but it is urgent to find suitable bio-ink. Bio-ink compounded with starch and hydrocolloid can not only improve the rheology, structure and printability of starch-based edible bio-ink, but also endow it with other functional characteristics, so that it can be applied to food, biomedicine and even the environment, and meet the strategic needs of national health, green and sustainable development. In this paper, hydrocolloids are reviewed as potential means to regulate the physicochemical properties of starch, which endows it with good printability and presents excellent printing products. The specific applications of the bio-ink in the fields of food, biomedicine and environment in hypoglycemic, lipid-lowering, swallowable food, delivery, intelligent materials, and bio-sensor are also discussed. Then, the challenges and future development trends of realizing large-scale application are prospected. Proper physicochemical properties of starch-hydrocolloid are positively correlated with printability. The presentation of excellent printability has realized the application in different fields, not only satisfies most people, but also create benefits for some specific people. This review is expected to provide some theoretical guidance for the further development of 3D printing technology and its large-scale application.

Automated summary

People are exploring the potential of using 3D printing in food, biomedicine, and environment, and the search for suitable bio-ink is urgent. Starch-hydrocolloid bio-ink shows improved rheology, structure, and printability, making it suitable for applications in various fields and meeting strategic needs. This review discusses the use of hydrocolloids to regulate the physicochemical properties of starch, enabling good printability and excellent printing products. The specific applications of bio-ink in food, biomedicine, and environmental fields are explored, as well as the challenges and future development trends for large-scale application.