Nano Policy Research
Center for Responsible Nanotechnology is a good place to start for nano policy research.
posted by Burak at 12:25 PM
0 comments
Sunday, August 01, 2004
Saturday, July 31, 2004
More of Carbon Nanotubes
Some of the commercial companies that produce Carbon Nanotubes:
Atomate
Carbon Nanotechnologies, Inc.
Carbolex
Iljin Nanotech
Rosseter Holdings Ltd.
NanoCraft, Inc
Nanocyl
Atomate
Carbon Nanotechnologies, Inc.
Carbolex
Iljin Nanotech
Rosseter Holdings Ltd.
NanoCraft, Inc
Nanocyl
posted by Burak at 10:20 PM
0 comments
Carbon Nanotubes (CNT)
Carbon Nano Tubes (CNT) are really an incredible new material to pursue a research into the field of nanotechnology. From Rosseter Holdings Ltd.:
"Carbon Nanotubes is the newly discovered "dream" material on which the emerging 21st century Nanotechnology is founded. The ever-growing need for super strong, super efficient materials, makes Carbon Nanotubes the most sought after material today. The impact of Carbon Nanotubes on efforts to save energy, combat global warming and protect the environment will be significant.
Carbon Nanotubes are a new form of Carbon, first identified in 1991 by Sumio Iijima of Nec, Japan, and formed from hexagonal arrays of carbon atoms.
The honeycomb-shaped walls of nanotubes may consist of either multiple layers of carbon atoms (multi wall nanotubes) or just a single layer (single layer nanotubes) .
They are so small that they can only be measured in nanometers. The diameter of this hollow cylindrical-stucture or tube may be 50,000 times thinner than a human hair and the length of millions of times greater that the diameter.
Carbon Nanotubes possess many unique and remarkable properties (chemical, physical, and mechanical), which make them desirable for many applications. The slender proportions of carbon nanotubes hide a staggering strength: it is estimated that they are 100 times stronger than steel at only one sixth of the weight - almost certainly the strongest fibres that will ever be made out of anything - strong enough even to build an elevator to space. In addition they conduct electricity better than copper and transmit heat better than diamond.
Enhancements in miniaturisation, speed and power consumption, size reduction of information processing devices, memory storage devices and flat displays for visualisation are currently being developed.
The most immediate application for nanotubes is in making strong, lightweight materials. It will be possible to build a car that is lighter than its human driver, yet strong enough to survive a collision with a tank.
Aircraft built with stronger and lighter materials will have longer life spans and will fly at higher temperatures, faster and more efficiently.
Nanotubes are being explored as receptacles - storage tanks - for hydrogen molecules to be used in the fuel cell that could power automobiles of the future. Hydrogen does not produce pollution or greenhouse emissions when burned and is considered to be the clean energy of the future.
Global Warming is of great concern to all nations. It is believed that Carbon Nanotubes will contribute to the development of an advanced method for collecting and storing the solar energy that falls upon the earth in large quantities to meet energy needs in 2050.
Carbon Nanotubes are sought after for their multiple uses in cutting-edge research projects. They are the most suitable material to nanotechnology research.
Molecular Nanotechnology is defined as the three-dimensional structural control of materials, processes and devices at the atomic scale.
It is said that Nanotechnology will lead to a fundamental breakthrough in the way materials, devices and systems are understood, designed and manufactured.
The scientific community considers Carbon Nanotubes as the building blocks of the 21st century technological revolution.
Many new applications of Carbon Nanotubes are constantly being discovered and many are yet to be discovered.
Some applications of Carbon Nanotubes include the following:
Micro-electronics / semiconductors
Conducting Composites
Controlled Drug Delivery/release
Artificial muscles
Supercapacitors
Batteries
Field emission flat panel displays
Field Effect transistors and Single electron transistors
Nano lithography
Nano electronics
Doping
Nano balance
Nano tweezers
Data storage
Magnetic nanotube
Nanogear
Nanotube actuator
Molecular Quantum wires
Hydrogen Storage
Noble radioactive gas storage
Solar storage
Waste recycling
Electromagnetic shielding
Dialysis Filters
Thermal protection
Nanotube reinforced composites
Reinforcement of armour and other materials
Reinforcement of polymer
Avionics
Collision-protection materials
Fly wheels"
"Carbon Nanotubes is the newly discovered "dream" material on which the emerging 21st century Nanotechnology is founded. The ever-growing need for super strong, super efficient materials, makes Carbon Nanotubes the most sought after material today. The impact of Carbon Nanotubes on efforts to save energy, combat global warming and protect the environment will be significant.
Carbon Nanotubes are a new form of Carbon, first identified in 1991 by Sumio Iijima of Nec, Japan, and formed from hexagonal arrays of carbon atoms.
The honeycomb-shaped walls of nanotubes may consist of either multiple layers of carbon atoms (multi wall nanotubes) or just a single layer (single layer nanotubes) .
They are so small that they can only be measured in nanometers. The diameter of this hollow cylindrical-stucture or tube may be 50,000 times thinner than a human hair and the length of millions of times greater that the diameter.
Carbon Nanotubes possess many unique and remarkable properties (chemical, physical, and mechanical), which make them desirable for many applications. The slender proportions of carbon nanotubes hide a staggering strength: it is estimated that they are 100 times stronger than steel at only one sixth of the weight - almost certainly the strongest fibres that will ever be made out of anything - strong enough even to build an elevator to space. In addition they conduct electricity better than copper and transmit heat better than diamond.
Enhancements in miniaturisation, speed and power consumption, size reduction of information processing devices, memory storage devices and flat displays for visualisation are currently being developed.
The most immediate application for nanotubes is in making strong, lightweight materials. It will be possible to build a car that is lighter than its human driver, yet strong enough to survive a collision with a tank.
Aircraft built with stronger and lighter materials will have longer life spans and will fly at higher temperatures, faster and more efficiently.
Nanotubes are being explored as receptacles - storage tanks - for hydrogen molecules to be used in the fuel cell that could power automobiles of the future. Hydrogen does not produce pollution or greenhouse emissions when burned and is considered to be the clean energy of the future.
Global Warming is of great concern to all nations. It is believed that Carbon Nanotubes will contribute to the development of an advanced method for collecting and storing the solar energy that falls upon the earth in large quantities to meet energy needs in 2050.
Carbon Nanotubes are sought after for their multiple uses in cutting-edge research projects. They are the most suitable material to nanotechnology research.
Molecular Nanotechnology is defined as the three-dimensional structural control of materials, processes and devices at the atomic scale.
It is said that Nanotechnology will lead to a fundamental breakthrough in the way materials, devices and systems are understood, designed and manufactured.
The scientific community considers Carbon Nanotubes as the building blocks of the 21st century technological revolution.
Many new applications of Carbon Nanotubes are constantly being discovered and many are yet to be discovered.
Some applications of Carbon Nanotubes include the following:
Micro-electronics / semiconductors
Conducting Composites
Controlled Drug Delivery/release
Artificial muscles
Supercapacitors
Batteries
Field emission flat panel displays
Field Effect transistors and Single electron transistors
Nano lithography
Nano electronics
Doping
Nano balance
Nano tweezers
Data storage
Magnetic nanotube
Nanogear
Nanotube actuator
Molecular Quantum wires
Hydrogen Storage
Noble radioactive gas storage
Solar storage
Waste recycling
Electromagnetic shielding
Dialysis Filters
Thermal protection
Nanotube reinforced composites
Reinforcement of armour and other materials
Reinforcement of polymer
Avionics
Collision-protection materials
Fly wheels"
posted by Burak at 10:13 PM
2 comments
Hello to All.
Finally, I am into this blogging stuff as well and would like to welcome you all to my web site.
One of the biggest reasons why I delayed going into this blogging thingy was/is time. Even if you are totally free and have nothing to do (which rarely ever happens), you have to constantly update and spend an extra hour a day or so to find some unusual or extraordinary material on the web that other bloggers have not discovered yet, and put it out there before anyone else does. So how does one make the site "sticky" enough that viewers "subscribe" to the blogging service and keep on coming? Just keep on watching...
Anyway, if you would like to leave any comments, suggestions or have ideas pls let me know.
One of the biggest reasons why I delayed going into this blogging thingy was/is time. Even if you are totally free and have nothing to do (which rarely ever happens), you have to constantly update and spend an extra hour a day or so to find some unusual or extraordinary material on the web that other bloggers have not discovered yet, and put it out there before anyone else does. So how does one make the site "sticky" enough that viewers "subscribe" to the blogging service and keep on coming? Just keep on watching...
Anyway, if you would like to leave any comments, suggestions or have ideas pls let me know.
posted by Burak at 6:44 PM
3 comments
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