Fabrication, Properties, and Biomedical Applications of Calcium-Containing Cellulose-Based Composites

Calcium-containing cellulose-based composites possess the advantages of high mechanical strength, excellent osteoconductivity, biocompatibility, biodegradation, and bioactivity, which represent a promising application system in the biomedical field. Calcium-containing cellulose-based composites have become the hotspot of study of various biomedical fields. In this mini-review article, the synthesis of calcium-containing cellulose-based composites is summarized via a variety of methods such as the biomimetic mineralization method, microwave method, co-precipitation method, hydrothermal method, freeze-drying method, mechanochemical reaction method, and ultrasound method. The development on the fabrication, properties, and applications of calcium-containing cellulose-based composites is highlighted. The as-existed problems and future developments of cellulose-based composites are provided. It is expected that calcium-containing cellulose-based composites are the ideal candidate for biomedical application.

Automated summary

Calcium-containing cellulose-based composites are highly promising in the biomedical field due to their high mechanical strength, excellent osteoconductivity, biocompatibility, biodegradation, and bioactivity. This mini-review article summarizes the synthesis of calcium-containing cellulose-based composites using various methods and highlights the development on their fabrication, properties, and applications. The existing problems and future developments of cellulose-based composites are also discussed.