Tuesday, November 9, 2010

Why spider web is one of the toughest materials?

Toughness is the measurement of the material resistance to breakage. 
The structure of every material at micro- and nanoscale influences its mechanical properties.

What is so special in spider web at the nanoscale?

Spider web is made of protein based silk fibres. Proteins are resilient (stretchy) and give elasticity to the material design. Silk fibres ranging from 1 to 10 microns contain oriented nanofibrils with a size of 100-200 nm and elongated tubular cavities. Those vacuoles, called canaliculi, control crack propagation during the process of fibres stretching. Consequently, the spider webs have huge strain to failure, which increases material toughness.
As far as a material design is considered, natural silk offers very attractive balance of toughness and stiffness together with viscoelastic properties. The material properties are controlled by molecular bonding between characteristic groups of atoms; in silk it is a combination of hydrogen bonding between peptide segments and van der Waal’s forces.

Concluding, in order to catch a few insects spiders need to make a web made out of silk, which is three times stronger than steel. Spider’s life must be then tough :)

Scanning electron microscopy image of silk fibres from spider web taken from Miriam’s garden.

Friday, October 1, 2010

Nano musical instruments


This week I was inspired by Asa showing me a short article in the newspaper about a nano musical instrument. A group from Twente University (MESA+ Institute for Nanotechnology) in the Netherlands claims to have created the first nano musical instrument that produces audible tones.The instrument itself is up to 1 millimetre long and contains springs measuring a tenth of the thickness of a human hair. The sound is created by vibration of the strings, the plucking of which is controlled by a mass spring system.[1] Additionally, comb drives are used to control the tuning of the comb by changing, for instance, the number of comb teeth or the gap between them.


I decided to investigate whether there are any other nano musical instruments, excluding the iPod nano :) I have found that there is a nanoguitar, which was made in 1997 by researches from Cornell University. The 10 microns long guitar has 6 strings, each about 50 nm and is carved out of crystalline silicon using high-voltage electron beam lithography. The strings can only be plucked when an atomic force microscope is used, which contains a nanosized tip. Unfortunately, this nanoguitar works in an inaudible frequency.[2] In 2004 another study, this time from IBM, made the nanoguitar playable with a focused laser beam, which hits the string, makes them vibrate and creates interference patterns in the light reflected back. The vibrating frequency created on the strings is much higher than in normal guitars so no one can hear it.[3]


To summarize, the only nano musical concerts ever performed have been in the Netherlands.



References:
1. http://www.utwente.nl/organization/stories/muziek-maken-op-de-micrometer
2. http://www.news.cornell.edu/releases/july97/guitar.ltb.html
3. “Nanoguitar is music to engineers' ears”, Futurist, 28(2), 12-13, Mar-Apr 2004

Thursday, September 30, 2010

What is “nano”?

Before writing about nanotechnology and nanomaterials I need to explain:
What is “nano”?

My friend Chris always says: do not think that iPod nano is a really nano sized device :)

Then, how big is one nanometer?

1 nanometer (nm) is 1 billionth of a meter (m)

In other words:
One nanometer is to a tennis ball what a tennis ball is to the Earth



Sunday, July 25, 2010

The start

Simply, it is going to be a curiosity driven blog.

I started to write this blog to learn how important “nano” is for nature and for us and why.
There are at least a few question to answer, such as:
Where all small features can be found and what are their functions?
Are the nano-sized materials different than the materials visible with naked eye?
What do make nanomaterials special?
.....