Tenfold life-span laptop battery claimed by scientists

Posted by admin on Jul 30th, 2010 | 0 comments

Tenfold life-span laptop battery claimed by scientists

Laptop batteries and movable phone batteries may well catch sight of a tenfold boost in the sphere of performance if a equipment breakthrough from scientists in the sphere of the US comes to realization. According to researchers by the Massachusetts Institute of equipment, replacing conservative battery electrodes with folks coated with carbon nanotubes can drastically escalate the power to burden ratio compared to conservative lithium-ion batteries. The scientists say they produced the powerful new to the job electrodes by on the other hand falling a corrupt material in the sphere of solutions containing carbon nanotubes with sure and no charges to achieve a steady film coating. The consequence is an electrode with the aim of is other porous and contains other oxygen groups, which can lumber room a bigger amount of lithium ions. According to the scientists, the energy output on behalf of a agreed burden of this new to the job electrode material was five era greater than on behalf of conservative capacitors, and the sum power release rate was 10 era with the aim of of lithium-ion batteries. In the sphere of addition to their from head to foot power output, the researchers receive the carbon nanotube electrodes were highly steady screening rebuff substitute in the sphere of performance in excess of 1,000 charge cycles. Although carbon nanotube production is now restricted to niche suppliers, several companies are gearing up on behalf of mountain production of the material. Blog from digital news.

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Carbon Nanotube Dispersing Using Ultrasonics

Posted by admin on Jul 28th, 2010 | 2 comments

Carbonnanotubes are strong and flexible but very cohesive. They are difficult to disperse into liquids, such as water, ethanol, oil, polymer or epoxy resin. Ultrasound is an effective method to obtain discrete – single-dispersed – carbonnanotubes.
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Trestles CW/fs laser for carbon nanotubes spectroscopy and photophysics research at Rice University

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Del Mar Photonics featured customer Bruce Weisman. Professor Weisman ordered Trestles Ti:Sapphire laser with built-in DPSS pump laser. dmphotonics.com Professor Weisman wrote: Our applications are for carbon nanotube excitation, mostly with a cw beam but in some experiments with mode-locked pulses. Del Mar Photonics offered Trestles Ti:Sapphire model with both CW and femtosecond modes of operation. R. Bruce Weisman Professor of Chemistry Research Statement Dr. R. Bruce Weisman and his group investigate the spectroscopy and photophysics of fullerenes and carbon nanotubes. All of these are closed nanoscopic structures formed from carbon atoms. Fullerenes, such as C60, C70, and their chemical derivatives, have unusual molecular properties that cause interesting behaviors following the absorption of light. Time-resolved absorption and emission methods are used to study radiationless decay, photochemical reactions, and energy transfer in fullerenes. Another major research topic is single-walled carbon nanotube spectroscopy. Following the discovery in Weisman?s lab of near-infrared nanotube fluorescence, the group has measured and unraveled the absorption and emission spectra of more than 30 semiconducting nanotube species. Follow-up projects include detailed elucidation of nanotube electronic structure, as well as applications in non-invasive biomedical imaging and analytical nanotechnology. Selected Publications R. Bruce Weisman and Shekhar Subramoney “Carbon Nanotubes …
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Scientists claim tenfold increase in laptop battery life

Posted by admin on Jul 23rd, 2010 | 0 comments

Scientists claim tenfold increase in laptop battery life

Laptop and mobile phone batteries could see a tenfold boost in performance if a technology breakthrough from scientists in the US comes to fruition.

According to researchers at the Massachusetts Institute of Technology, replacing conventional battery electrodes with those coated with carbon nanotubes can drastically increase the power to weight ratio compared to conventional lithium-ion batteries.

The scientists say they produced the powerful new electrodes by alternatively dipping a base material in solutions containing carbon nanotubes with positive and negative charges to make a stable film coating.

The result is an electrode that is more porous and contains more oxygen groups, which can store a larger number of lithium ions.

According to the scientists, the energy output for a given weight of this new electrode material was five times greater than for conventional capacitors, and the total power delivery rate was 10 times that of lithium-ion batteries.

In addition to their high power output, the researchers claim the carbon nanotube electrodes were highly stable showing no change in performance over 1,000 charge cycles.

Although carbon nanotube production is currently limited to niche suppliers, several companies are gearing up for mass production of the material.

It is great news,If this science and technology can be successfully,our life will change,Mobile phones and computers do not always charge the battery, they will have a longer life. When traveling on business, do not worry about battery power, it is too convenient. I look forward to the kind of batteries can be used on

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