Silver NanoParticle

Try this site http://goldsolinc.com/ for more information on Silver NanoParticle. The gold Nanoparticle Technology created by this experience are really uniform as well as remain well dispersed also at higher steel concentrations. Their dimension can be accurately tuned from ~ 10 to 160 nanometers, makings them appropriate for a wide range of efficient applications.

Silver nanotechnology

Visit this site http://goldsolinc.com/ for more information on Silver nanotechnology. The gold Nanoparticle Technology produced by this process are very uniform and remain well dispersed even at high metal concentrations. Their size can be accurately tuned from ~10 to 160 nanometers, which makes them suitable for a wide range of practical applications.

Nanoparticle technology

Nanoparticle Technology is currently an area of intense scientific research

In addition to Goldsol’s line up of Gold and Silver Colloids, Dispersions, and Powders we now offer samples of our revolutionary GNS products. Our Patent pending GNS metal colloids are specifically designed as superior carriers of organic molecules for bio-medical applications. This is one of the most exciting areas of Nanoparticle Technology with far reaching potential, especially with regard to Drug Delivery. 

Printed Electronics Ink is considered by many to be the next revolution in the field of commercially viable Electronics. Goldsol Inc., through a cooperative relationship with materials science researchers at Clarkson University, has released a revolutionary new nano silver formulation that features a high concentration (up to 60% silver content), sub-20nm silver colloidal solution and can be specifically formulated for Conductive Ink or thin film applications. 

The Holy Grail of the mass production of versatile electronics using flexible substrates consists of the confluence of technologies that include: the development of suitable plastic and other substrate materials themselves, the development of machines to manufacture the substrates and to print conductive traces on them, and the development of suitable Conductive Ink that can be effectively applied on the substrates as printed conductive patterns. 

Goldol’s AGX formula also features very low sintering temperature characteristics, making it perfectly suited for Printed Electronics Market. electronic tracers need to sinter (melt) at a temperature that is low enough that the substrate on which they have been printed does not itself melt in the process of curing the printed metal traces. 

Other researches from many established and start-up companies are also making substantial headway in refining both the flexible substrate technologies and the building of a new generation of machinery built specifically for printed electronics manufacturing applications. The convergence of the necessary foundational elements for viable mass-produced flexible Printed Electronics Market is upon us! 

Most drugs today have to be administered in higher concentrations than are actually needed to treat the disease or ailment. This is primarily due to the body’s natural immune defenses that tend to resist the invasive action of foreign molecules. Therefore, drugs have to be delivered in high enough doses to insure that the body absorbs the proper amount needed to treat the disease. This is a shotgun approach and often leads to side effects caused by the excess portion of the drug in the body. 

Extensive research has proven that, when certain drug molecules are attached to gold particles, the body tends to absorb the drug much more efficiently. This same theory seems to hold true for other organic molecules as well. The challenge has been in attaching the organic molecules in a way that is cost effective and can be implemented on commercial scale. 

The Printed Electronics Market segment is expected to grow at a CAGR of 33% and to reach $40 Billion by 2020. It is widely anticipated that, by 2020, solar cells, OLED’s, RFID tags, sensors, wearable electronics, and many other electronic circuits will be printed on plastic film, similar to the way we print ink on paper today. 

We can design customized thin films coatings with Nano Solutions. This silver ionic shell of each silver nano-sized particle tries to become complete by getting back the two missing electrons. As a result, each particle attaches to the thin cell walls of every type of pathogen (pathogenic cell walls are always very thin) it has been tested against to date in order to restore its two missing electrons. 

Navigate To This website for getting more information related to Nanoparticle Technology as well as, Printed Electronics Market.