Sol-gel based materials for biomedical applications

• Published in: Progress in materials science Vol. 77; pp. 1 - 79
• Main Authors: Owens, Gareth J, Singh, Rajendra K, outan, Farzad, Alqaysi, Mustafa, Han, Cheol-Min, Mahapatra, Chinmaya, Kim, Hae-Won, Knowles, Jonathan C
• Format: Journal Article
• Language: English
• Published: 01.04.2016
• Subjects: Biochemistry; Biomedical materials; Entrapment; Mathematical morphology; Nanomaterials; Nanostructure; Sol gel process; Surface chemistry
• ISSN: 0079-6425
• DOI: 10.1016/j.pmatsci.2015.12.001

Sol-gel chemistry offers a flexible approach to obtaining a diverse range of materials. It allows differing chemistries to be achieved as well as offering the ability to produce a wide range of nano-/micro-structures. The paper commences with a generalized description of the various sol-gel methods available and how these chemistries control the bulk properties of the end products. Following this, a more detailed description of the biomedical areas where sol-gel materials have been explored and found to hold significant potential. One of the interesting fields that has been developed recently relates to hybrid materials that utilize sol-gel chemistry to achieve unusual composite properties. Another intriguing feature of sol-gels is the unusual morphologies that are achievable at the micro- and nano-scale. Subsequently the ability to control pore chemistry at a number of different length scales and geometries has proven to be a fruitful area of exploitation, that provides excellent bioactivity and attracts cellular responses as well as enables the entrapment of biologically active molecules and their controllable release for therapeutic action. The approaches of fine-tuning surface chemistry and the combination with other nanomaterials have also enabled targeting of specific cell and tissue types for drug delivery with imaging capacity.