| Gold nanoparticle (94) |  |
| Inorganic nanoparticle (12) | |
| Magnetic nanoparticle (35) | |
| Metal nanoparticle (49) | |
| Nanobead (6) | |
| Nanocrystal (559) | |
| Nanodisk (9) | |
| Nanogel (7) | |
| Nanoparticle (1347) | |
| Nanoplatelet (13) | |
| Nanostar particle (10) | |
| Oxide nanoparticle (15) | |
| Silver nanoparticle (40) | |
| Zinc oxide nanoparticle (7) | |
The development of Biogàsplus was carried out by the ICN2's Inorganic nanoparticle group, led by ICREA researcher Víctor Puntes,
The ability to mold inorganic nanoparticles out of materials such as gold and silver in precisely designed 3-D shapes is a significant breakthrough that has the potential to advance laser technology microscopy solar cells electronics environmental testing
The paper's findings describe a significant advance in DNA NANOTECHNOLOGY as well as in inorganic nanoparticle synthesis Yin said.
For the very first time a general strategy to manufacture inorganic nanoparticles with user-specified 3d shapes has been achieved to produce particles as small as 25 nanometers or less with remarkable precision (less than 5 nanometers.
The 3d inorganic nanoparticles are conceived first and meticulously planned using computer design software. Using the software the researchers design three-dimensional frameworks of the desired size
Although the team selected gold seedlings to cast their nanoparticles there is a wide range of inorganic nanoparticles that can be shaped forcibly through this process of DNA nanocasting.
These unstructured, inorganic nanoparticles have different electronic, magnetic and optical properties from their crystalized counterparts, which could lead to applications in fields ranging from materials engineering to optics.
The ability to mold inorganic nanoparticles out of materials such as gold and silver in precisely designed 3d shapes is a significant breakthrough that has the potential to advance laser technology microscopy solar cells electronics environmental testing disease
The paper's findings describe a significant advance in DNA NANOTECHNOLOGY as well as in inorganic nanoparticle synthesis Yin said.
For the very first time a general strategy to manufacture inorganic nanoparticles with user-specified 3d shapes has been achieved to produce particles as small as 25 nanometers or less with remarkable precision (less than 5 nanometers.
The 3d inorganic nanoparticles are conceived first and meticulously planned using computer design software. Using the software the researchers design three-dimensional frameworks of the desired size
Although the team selected gold seedlings to cast their nanoparticles there is a wide range of inorganic nanoparticles that can be shaped forcibly through this process of DNA nanocasting.
< Back - Next >
Overtext Web Module V3.0 Alpha
Copyright Semantic-Knowledge, 1994-2011