University of Cordoba Research Group Publishes Nanoparticle Tracking Analysis Data on Metallic Nanoparticles as Part of a Program to Develop Sustainable Nanomaterials

NanoSight reports on how the University of Cordoba has applied Nanoparticle Tracking Analysis, NTA, to improve the understanding of the behavior of silver colloids used in the development of sustainable nanomaterials.

Dr Rafael Luque is a research member in the Department of Organic Chemistry on the Campus de Rabanales of the University of Cordoba in Spain. The main research goals of his team include the preparation of nanoparticle systems for potential utilization as catalysts and in other applications (e.g. antimicrobial and photocatalytic activities). They are focused on the design of various nanomaterials for a broad range of applications.

Dr Luque used NTA to demonstrate the successful preparation of silver colloid nanoparticles using biopolymer derived capping agents. It proved most successful resulting in a new paper published by RSC Advances entitled "Evaluation of biomass-derived stabilizing agents for colloidal silver nanoparticles via nanoparticle tracking analysis (NTA)." Here, Dr Luque was able to confirm the presence and distribution of the nanoparticles by NTA using transmission electron microscopy, TEM.

Describing his work, Dr Luque said "We have extensively employed TEM to ascertain structures and NP sizes of all types of materials. This is one of the most widely employed techniques for NP characterization in terms of size and shape. With our discovery of NTA, we now see a methodology that is robust, simple and quick to use. This simplicity and effectiveness to generate results in our highly focused projects is a very welcome advantage."

Discussing the research paper* in more depth, Dr Luque described how NTA was used to differentiate between the capping efficiencies of various biomass-derived stabilizing agents (e.g. starch, alginic acid and a waste-derived biorefinery sugar syrup) of aqueous colloidal silver suspensions. The results indicated that the use of a complex, biorefinery hemicellulosic-derived syrup containing a mixture of C5 and C6 sugars, as well as oligomers, provided comparable capping and stabilization properties to those of the most efficient pure polysaccharides including alginic acid. He concluded, "These findings illustrate the potential of waste-derived feedstocks for the stabilization of nanoparticles in solution."

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