Home > Press > Bioactive glass nanofibers produced
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| The nanofibers (and micro) of glass fiber laser produced are used for bone tissue regeneration. Credit: Quintero et al. |
Abstract:
A team of researchers from the University of Vigo, Rutgers University in the United States and Imperial College London, in the United Kingdom, has developed "laser spinning", a novel method of producing glass nanofibres with materials. They have been able to manufacture bioglass nanofibres, the bioactive glass used in regenerating bone, for the first time.
Bioactive glass nanofibers produced
Spain, USA and UK | Posted on December 22nd, 2009"Laser spinning makes it possible to produce glass nanofibres of compositions that would be impossible to obtain using other methods", Félix Quintero, co-author of the study and a researcher at the University of Vigo, tells SINC.
The new technique, which was highlighted on the front cover of the journal Advanced Functional Material, involves using a high-energy laser that melts a small amount of precursor material. This creates a super-fine filament that is lengthened and cooled by a powerful gas current.
The scientist highlights the simplicity of the system, that "can be used in environmental conditions", as well as its high rate of production and its ability to easily control the composition of the material.
This international team has managed to produce bioglass composition nanofibres, a bioactive glass that is used to regenerate bony tissue. The laser spinning makes the material flexible, continuous and gives it a nanometric structure, which helps in the proliferation and spread of bone cells.
The researchers are now working to produce other functional compositions perfected by biomedical techniques to regenerate bone, and which may have applications in other fields. The technique could be used to manufacture fire-retardant fabrics, CO2 capture systems, or to produce composite materials that require reinforcement with nanofibres.
Aside from the scientists from the University of Vigo, a research group from Rutgers University in the United States and another from Imperial College London, in the United Kingdom, also took part in this initiative.
References:
Félix Quintero, Juan Pou, Rafael Comesaña, Fernando Lusquiños, Antonio Riveiro, Adrian B. Mann, Robert G. Hill, Zoe Y. Wu y Julian R. Jones. "Laser Spinning of Bioactive Glass Nanofibers". Advanced Functional Material 19 (19): 3084�, 2009.
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The Spanish Science and Technology Foundation (FECYT), dependent organisation on Ministry of Science and Innovation, was born in 2001 as a tool of the national system of knowledge generation and technological transfer. The Foundation operates as a non-profit private association and with functional autonomy, with the goal of rendering a continuous and flexible service to the Spanish system of science-technology-enterprise.
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