Paper electrified by copper particles
The Polymer Chemistry Research Group at the University of Helsinki, Finland, has succeeded in producing nano-sized metallic copper particles. When the size of particles is reduced to a nano-scale (one nanometre being one billionth of a metre), the properties of the material undergo substantial changes. Unlike in bulk materials, in nanoparticles the number of surface atoms is considerably greater than the number of atoms inside the material, which, among other things, makes the melting temperature of nanomaterials very low. With suitable heat treatment (sintering), the particles manufactured by the research group can be made to form electricity-conducting layers and patterns on paper. The research result is interesting in that polymer-protected metal particles can also be used in various electronics applications: various kinds of intelligent patterns can be printed on paper that, in the future, may replace components such as electronics boards.
The findings were recently reported in an international journal.
The purpose of the research was to test the ability of polymeric and small-molecule compounds that contain amine groups to protect copper nanoparticles during their manufacturing stage. The particles were manufactured with either poly(ethylene imine) (PEI) or tetraethylenepentamine (TEPA) used as protecting compounds. The average size of the particles at room temperature was 8.5 nm (with PEI as the protecting agent) or 19.4 nm (with TEPA as the protecting agent). Slightly oxidised at their surface, the particles were sintered to the paper surface, and the electrical conductivity of the layer thus formed was measured. Particles manufactured using PEI released the protective agent during sintering at relatively low temperatures (150-200 °C). At these temperatures, the size of the particles increased rapidly. The electrical conductivity of the sintered particles was good, which makes them promising materials for use in electronics printed on paper.
At the University of Helsinki, a research group led by Professor Heikki Tenhu synthesises the so-called intelligent polymers and studies controlled polymerisation reactions. Polymers are large-molecule compounds that, as functional materials, change their properties according to the changing ambient conditions.
Source: University of Helsinki
Related
- University of Pennsylvania scientists move optical computing closer to realityTue, 19 Aug 2008, 14:56:47 EDT
- When particles are so small that they seep right through skinTue, 30 Sep 2008, 11:22:09 EDT
- Nanoparticle toxicity doesn't get wacky at the smallest sizesSun, 15 Feb 2009, 6:59:49 EST
- Study shows transfer of heavy metals from water to fish in Huelva estuaryTue, 16 Jun 2009, 9:26:07 EDT
- Additive copper-zinc interaction affects toxic response in soybeanTue, 10 Nov 2009, 11:24:48 EST
Other sources
- Paper Electrified By Copper Particlesfrom Science DailyTue, 17 Mar 2009, 13:29:47 EDT
- Paper electrified by copper particlesfrom PhysorgMon, 16 Mar 2009, 15:42:25 EDT
- Paper electrified by copper particlesfrom Science BlogMon, 16 Mar 2009, 10:29:48 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
No popular news yet
No popular news yet
- Beyond sunlight: Explorers census 17,650 ocean species between edge of darkness and black abyss
- Implant-based cancer vaccine is first to eliminate tumors in mice
- Surface bacteria maintain skin's healthy balance
- Is global warming unstoppable?
- Polyphenols and polyunsaturated fatty acids boost the birth of new neurons
- New evidence that dark chocolate helps ease emotional stress
- African desert rift confirmed as new ocean in the making
- Nanoparticles used in common household items caused genetic damage in mice
- New study links vitamin D deficiency to cardiovascular disease and death
- Therapy 32 times more cost effective at increasing happiness than money