Aspects Regarding of Nanomaterials and Nanocomposites in 3D Printing Technology Process Development for Application in Biomedicine

IF 0.4 Q4 NANOSCIENCE & NANOTECHNOLOGY
Vlad Ștefan Constantin, Alexandru Adrian Geana, Marin Matei Corciu
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Abstract

This paper will present the advantages of developing the 3D printing process of nanomaterials in different fields such as electronics, biomedical and bioelectronics. As it is already known, nanomaterials are starting to become more and more useful, and more emphasis is being put on the development of new technologies to enable the use of these materials. Nanomaterials consist mainly of chemical substances made up from very small particles that are no larger than a hundred nanometers. These materials occur in nature, they can be an accidental product of human activity, or they can be consciously made to develop new characteristics such as strength, chemical reactivity or increased conductivity compared to the same material that does not display nanometric characteristics. By integrating nanomaterials to 3D printing technology, it is possible to create unique structures, which are difficult to achieve. Nanomaterials can possibly work on personal satisfaction and add to the advancement of European industry. However, new materials can also pose health and environmental risks. Scientific research has turned its attention to the potential outcomes of the production and application of nanomaterials. Meanwhile, the newest method for 3D printing of nanomaterials is Multiphase Direct Ink Writing (MDIW), a method developed from Direct Ink Writing (DIW), a revolutionary additive manufacturing mechanism with wide applications in structural engineering systems, thermal isolation, electrical conductivity, optical reflectivity, and biomedical scaffolds.
纳米材料和纳米复合材料3D打印技术在生物医学中的应用
本文将介绍纳米材料3D打印技术在电子、生物医学和生物电子学等不同领域的优势。众所周知,纳米材料正开始变得越来越有用,人们越来越重视开发新技术以使这些材料的使用成为可能。纳米材料主要由不超过100纳米的非常小的颗粒组成的化学物质组成。这些材料存在于自然界中,它们可以是人类活动的偶然产物,也可以有意识地使它们发展出新的特性,如强度、化学反应性或与不显示纳米特性的相同材料相比增加的导电性。通过将纳米材料与3D打印技术相结合,可以创造出难以实现的独特结构。纳米材料可以满足个人需求,促进欧洲工业的发展。然而,新材料也可能带来健康和环境风险。科学研究已将注意力转向纳米材料生产和应用的潜在成果。与此同时,纳米材料3D打印的最新方法是多相直接墨水书写(MDIW),这是一种由直接墨水书写(DIW)发展而来的方法,是一种革命性的增材制造机制,在结构工程系统、热隔离、电导率、光学反射率和生物医学支架等领域有着广泛的应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Nano Hybrids and Composites
Nano Hybrids and Composites NANOSCIENCE & NANOTECHNOLOGY-
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