Acceleration Voltage and Spot Size of Advanced Bio Material in Nano scale

Abstract

Hydrogels, films, micro/nanofibers, and particles, which have recently emerged as advanced biomaterials, have great potential for use as cell/drug carriers for localised drug delivery and as biomimetic scaffolds for future regenerative therapies. Biological properties such as biocompatibility, biodegradability, immunogenicity of biomaterials, and current application strategies are discussed. Finally, the final remarks and prospects for such advanced biomaterials are discussed. This article discusses stem cell biology, biomaterials, and technological approaches, as well as the design of biomaterials and devices used in vivo and in vitro. Generating new functional liver substitutes, improving bone repair processes, neurogenesis, groundbreaking models of cardiac fibrosis, and developing novel venous valve prostheses are some of the specific topics covered. This interdisciplinary approach emphasises how various properties of biomaterials and devices play a role in promoting Nano materials to Modern Technology.