No small measure: Origins of nanorod diameter discovered
A new study answers a key question at the very heart of nanotechnology: Why are nanorods so small? Researchers at Rensselaer Polytechnic Institute have discovered the origins of nanorod diameter, demonstrating that the competition and collaboration among various mechanisms of atomic transport hold the key to nanorod size. The researchers say it is the first study to identify the fundamental reasons why nearly all nanorods have a diameter on the order of 100 nanometers.
"Scientists have been fabricating nanorods for decades, but no one has ever answered the question, 'Why is that possible?'" said Hanchen Huang, professor in Rensselaer's Department of Mechanical, Aerospace, and Nuclear Engineering, who led the study. "We have used computer modeling to identify, for the first time, the fundamental reasons behind nanorod diameter. With this new understanding, we should be able to better control nanorods, and therefore design better devices."
Results of the study, titled "A characteristic length scale of nanorods diameter during growth," were recently published in the journal Physical Review Letters.
When fabricating nanorods, atoms are released at an oblique angle onto a surface, and the atoms accumulate and grow into nanorods about 100 nanometers in diameter. A nanometer is one billionth of a meter in length.
The accumulating atoms form small layers. After being deposited onto a layer, it takes varying amounts of energy for atoms to travel or "step" downward to a lower layer, depending on the step height. In a previous study, Huang and colleagues calculated and identified these precise energy requirements. As a result, the researchers discovered the fundamental reason nanorods grow tall: as atoms are unable to step down to the next lowest layer, they begin to stack up and grow higher.
It is the cooperation and competition of atoms in this process of multi-layer diffusion that accounts for the fundamental diameter of nanorods, Huang shows in the new study. The rate at which atoms are being deposited onto the surface, as well as the temperature of the surface, also factor into the equation.
"Surface steps are effective in slowing down the mass transport of surface atoms, and aggregated surface steps are even more effective," Huang said. "This extra effectiveness makes the diameter of nanorods around 100 nanometers; without it the diameter would go up to 10 microns."
Beyond advancing scientific theory, Huang said the discovery could have implications for developing photonic materials and fuel cell catalysts.
Source: Rensselaer Polytechnic Institute
Related
- Purifying nanorods: Big success with tiny cleanupMon, 22 Sep 2008, 14:07:43 EDT
- A safe approach to nanotechnologyWed, 19 Aug 2009, 11:57:57 EDT
- 'Nanosculpture' could enable new types of heat pumps and energy convertersThu, 17 Jul 2008, 15:14:39 EDT
- Gold solution for enhancing nanocrystal electrical conductanceThu, 10 Sep 2009, 10:01:58 EDT
- New nanotech sensor developed with medical, chemistry applicationsTue, 13 Oct 2009, 10:18:15 EDT
Articles on the same topic
- Slimmer, stickier nanorods give boost to 3-D computer chipsTue, 17 Mar 2009, 13:33:59 EDT
Other sources
- No Small Measure: Origins of Nanorod Diameter Discoveredfrom Newswise - ScinewsThu, 19 Mar 2009, 12:43:17 EDT
- No small measure: Origins of nanorod diameter discoveredfrom PhysorgThu, 19 Mar 2009, 12:28:27 EDT
- No small measure: Origins of nanorod diameter discoveredfrom Science BlogThu, 19 Mar 2009, 11:56:55 EDT
- Slimmer Nanorods Good Fit for Next-Gen 3-D Computer Chipsfrom PhysorgTue, 17 Mar 2009, 15:42:17 EDT
- Slimmer, Stickier Nanorods Give Boost to 3-D Computer Chipsfrom Newswise - ScinewsTue, 17 Mar 2009, 13:31:36 EDT
Latest Science Newsletter
Get the latest and most popular science news articles of the week in your Inbox!Learn more about
Popular science news articles
- First black holes may have incubated in giant, starlike cocoons, says CU-Boulder study
- Report shows dramatic decline in Siberian tigers
- 'Too fat to be a princess?' UCF study shows young girls worry about body image
- Protein from pregnancy hormone may prevent breast cancer
- Rocket science leads to new whale discovery
- Beyond sunlight: Explorers census 17,650 ocean species between edge of darkness and black abyss
- Generating electricity from air flow
- Therapy 32 times more cost effective at increasing happiness than money
- Beyond genomics, biologists and engineers decode the next frontier
- It's a gas: New discovery may lead to heartier, high-yielding plants
- Therapy 32 times more cost effective at increasing happiness than money
- Beyond sunlight: Explorers census 17,650 ocean species between edge of darkness and black abyss
- Full recovery now possible for an 'untreatable' mental illness
- Surface bacteria maintain skin's healthy balance
- Is global warming unstoppable?
- New evidence that dark chocolate helps ease emotional stress
- African desert rift confirmed as new ocean in the making
- Scientists discover influenza's Achilles heel: Antioxidants
- Nanoparticles used in common household items caused genetic damage in mice
- New study links vitamin D deficiency to cardiovascular disease and death