has been developing sustainable nanomaterials since 2009. f you take a big tree and cut it down to the individual fiber,
#New way to produce carbon nanoparticles found only honey and microwave needed Researchers at University of Illinois have created a new inexpensive and simple way to produce carbon nanoparticles.
They are small enough to evade the body immune system, reflect light in the near-infrared range for easy detection,
However, when usual methods to produce carbon nanoparticles are rather complex and can take days,
and time that these carbon nanoparticles can virtually be made at home. Dipanjan Pan bioengineering professor one of authors of the study, said that you just have to mix honey
but that is nanoparticles with high luminescence This method is extremely simple and highly scalable for eventual clinical use.
These carbon nanoparticles produced in such a simple and inexpensive way have several attractive properties.
Finally, carbon nanoparticles are rather small, less than eight nanometres in diameter (in comparison, a human hair is 80,000 to 100,000 nanometres thick).
This is very important and useful, since human immune system fails to recognize anything under 10 nanometres,
which allows for a better therapeutic potential. The team of researchers tested the therapeutic potential of these carbon nanoparticles by loading them with an anti-melanoma drug
and mixing them in a topical solution that was applied to pig skin. However, scientists have to make sure they coated particles properly,
so they used vibrational spectroscopic techniques to identify the molecular structure of the nanoparticles and their cargo.
The experiment showed that the carbon nanoparticles did not release the drug payload at room temperature
Study showed that cancer cells were affected positively by drugs delivered by these carbon nanoparticles. These carbon nanoparticles,
despite being made from honey in the microwave, are very useful indeed. They can be used to carry a variety of different drugs into a human body.
having in mind that currently production of carbon nanoparticles requires expensive equipment and purification processes that can take days.
#New nanogenerators collect friction energy from rolling tires Team of engineers from University of Wisconsin-Madison and a collaborator from China have developed a new nanogenerator that is able to generate power from friction created by rolling
The nanogenerator harvests the wasted tire friction energy by relying on the triboelectric effect. It is the electric charge that results from the contact or rubbing together of two dissimilar objects.
and see how these nanogenerators develop and when they will be introduced for practical application c
#Nanotech transforms cotton fibers into modern marvel Marcia Silva da Pinto, postdoctoral researcher, works on growing metal organic frameworks onto cotton samples to create a filtration system capable of capturing toxic gas,
as Juan Hinestroza looks on. Juan Hinestroza and his students live in a cotton-soft nano world,
who directs the Textiles Nanotechnology Laboratory at Cornell. n a nanoscale world and that is our world we can control cellulose-based materials one atom at a time. he Hinestroza group has turned cotton fibers into electronic components such as transistors and thermistors,
Taking advantage of cotton irregular topography, Hinestroza and his students added conformal coatings of gold nanoparticles,
Synthesizing nanoparticles and attaching them to cotton not only creates color on fiber surfaces without the use of dyes,
can be manipulated at the nano level to build nanoscale cages that are the exact same size as the gas they are trying to capture. e wanted to harness the power of these molecules to absorb gases
#Environmentally Friendly Lignin Nanoparticle reenssilver Nanobullet to Battle Bacteria North carolina State university researchers have developed an effective
and environmentally benign method to combat bacteria by engineering nanoscale particles that add the antimicrobial potency of silver to a core of lignin,
greener and safer nanotechnology and could lead to enhanced efficiency of antimicrobial products used in agriculture and personal care.
In a study published in Nature Nanotechnology, NC State engineer Orlin Velev and colleagues show that silver-ion infused lignin nanoparticles,
which are coated with a charged polymer layer that helps them adhere to the target microbes,
As the nanoparticles wipe out the targeted bacteria, they become depleted of silver. The remaining particles degrade easily after disposal because of their biocompatible lignin core,
limiting the risk to the environment. eople have been interested in using silver nanoparticles for antimicrobial purposes, but there are lingering concerns about their environmental impact due to the long-term effects of the used metal nanoparticles released in the environment,
said Velev, INVISTA Professor of Chemical and Biomolecular engineering at NC State and the paper corresponding author. e show here an inexpensive and environmentally responsible method to make effective antimicrobials with biomaterial cores. he researchers used the nanoparticles
to attack E coli, a bacterium that causes food poisoning; Pseudomonas aeruginosa, a common disease-causing bacterium; Ralstonia, a genus of bacteria containing numerous soil-borne pathogen species;
The nanoparticles were effective against all the bacteria. The method allows researchers the flexibility to change the nanoparticle recipe in order to target specific microbes.
Alexander Richter, the paper first author and an NC State Ph d. candidate says that the particles could be the basis for reduced risk pesticide products with reduced cost
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