「Nanoparticles」の共起表現一覧(1語右で並び替え)
該当件数 : 51件
Nanoparticles and nanostructures | |
Synthesis and applications of | nanoparticles and nanotubes |
ere is also research into the viability of | nanoparticles and catalysts to lower the temperature at |
This model can be useful for some | nanoparticles and non-polar fluids, where Debye length i |
cles that are coated with titanium dioxide | nanoparticles and agitated using a magnetic field while |
The biodegradable cationic magnetic | nanoparticles are not toxic at the recommended doses and |
If the | nanoparticles are exposed to air or water, however, the |
So far, magnetic | nanoparticles are used in connection with magnetic chemi |
Since magnetic | nanoparticles are time and cost intensive to produce, th |
it can still be toxic, for instance carbon | nanoparticles are a deadly toxins to Drosophila |
cted to electricity on the other hand, the | nanoparticles blacken, forming the basic characteristics |
Nanoparticles can be produced by the hydrothermal synthe | |
Furthermore the magnetic | nanoparticles can be guided via a magnetic field to the |
The types and quantities of | nanoparticles can vary according to operating temperatur |
Studies have found that titanium dioxide | nanoparticles cause genetic damage in mice, suggesting t |
Gene vectors / magnetic | nanoparticles complexes are seen into cells after 10-15 |
e fast and easy separation of the magnetic | nanoparticles, eliminating tedious and costly separation |
ials science as a precursor in making iron | nanoparticles for carbon nanotube growth by chemical vap |
As such, the resulting types of | nanoparticles from different engine technologies and eve |
Furthermore thiomer based micro- and | nanoparticles have already been developed. |
The magnetic | nanoparticles have an approximately size of 100 nm and a |
Several methods for the production of CdSe | nanoparticles have been developed: arrested precipitatio |
ures such as carbon nanotubes and metallic | nanoparticles have been shown to enhance the efficiency |
Nanoparticles have been explored as a delivery system fo | |
atent filed for aircraft windows uses SrB6 | nanoparticles in a transparent acrylic sheet. |
uctures and devices obtained via precursor | nanoparticles, in various fields such as physics, chemis |
absorber in the UV range, titanium dioxide | nanoparticles in the anatase and rutile phases are able |
njecting nanobots (ideally multifunctional | nanoparticles) into the patient's body. |
at the volatile component of 95% of diesel | nanoparticles is unburned lubricating oil. |
Synthesis of GaSe | nanoparticles is carried out by the reaction of GaMe3 wi |
In the case of magnetic | nanoparticles it adds the property of facile a separatio |
cules (insulin, bovine serum albumin, gold | nanoparticles) led to the view that the pores are open c |
In B, | nanoparticles of iron are represented by black dots; the |
Nanoparticles of gadolinium oxide is a potential contras | |
diffusing through a medium scattering off | nanoparticles of diameter 10 - 100 nm. |
PDGFR directed tyrphostins), released from | nanoparticles or from a drug eluting stent can be used t |
If the mixture is very dry, | nanoparticles partition into the methanol phase. |
The IR-absorbing properties of these | nanoparticles prevents the transmittance of infrared wav |
processes in organic molecules, polymers, | nanoparticles, semiconductors, photosynthesis in plants, |
Quoc Nguyen for contributions to | nanoparticles, smart wells and chemical enhanced oil rec |
GaSe | nanoparticles then begin to form, and may be detected by |
Research suggests that by using these | nanoparticles to form the pixels of a screen, they gener |
Nanoparticles used as carriers for nucleic acids are mos | |
005) "Characterization of Titanium Dioxide | Nanoparticles Using Molecular Dynamics Simulations", Phy |
atalysis with Rhodium attached to magnetic | nanoparticles was shown by T.-J Yoon et al. |
When gold | nanoparticles were introduced into Bacopa caroliniana pl |
The use of these | nanoparticles, which can penetrate the body and reach in |
The anode of the emitter would charge | nanoparticles, which would then accelerate and shoot out |
study physical and chemical properties of | nanoparticles which will help to foster US energy indepe |
mmobilizing the catalytic center on top of | nanoparticles with a large surface to volume ratio count |
ted by controlled movement of the magnetic | nanoparticles within the cartridge using external magnet |
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