Industrial Plasma Technology: Applications from Environmental to Energy Technologies
May 8, 2010 by AboutNanoWires.com · Leave a Comment
Product Description
Clearly structured in five major sections on applications, this monograph covers such hot technologies as nanotechnology, solar cell technology, biomedical and clinical applications, and sustainability.
Since the topic, applications and readers are highly interdisciplinary, the book bridges materials science, industrial chemistry, physics, and engineering — making it a must-have for researchers in industry and academia, as well as those working in application-oriented plasma technology.
BUY FROM AMAZON–>> Industrial Plasma Technology: Applications from Environmental to Energy Technologies
Ibm [Nyse: Ibm] Breaks World Record For Solar Efficiency
May 4, 2010 by AboutNanoWires.com · Leave a Comment
Solar cells that do not have the expensive elements mentioned usually have an efficiency that doesn’t surpass 6.7 percent. Other than bein g more efficient, the new IBM solar cell is also cheaper in terms of printing costs, slit casting, and dip and spray coating because it uses a mix of solution and nanoparticle-based method in place of the old vacuum method. IBM lead researcher Dr. David Mitzi said that IBM is close to developing solar technology that is cost-effective while at the same time has the capacity to deploy at terawatt level. IBM scientists use a large lens for concentrating the sun’s power – a technology known as concentrator photovoltaics or CPV– to convert sunlight into 70 watts of electricity. IBM’s output is said to be five times the electrical power density produced by other solar farms using CPV technology. In 2008, IBM developed the concentrating photovoltaic technology with the aim to reduce the cost of producing solar energy by using less photovoltaic cells in a solar farm and concentrating more light onto each cell using larger lenses. IBM’s strategy comes from its capacity to cool the tiny solar cell and to concentrate the equivalent of 2000 suns on a small area for melting stainless steel. IBM also uses its technology for cooling computer chips which had enabled solar cells to cool from greater than 1600 degrees Celsius to just 85 degrees Celsius. IBM has also developed a system that achieved breakthrough results by combining a commercial solar cell with an advanced IBM liquid metal thermal cooling system using microprocessor industry methods. The melted liquid metal –called thermal interface layer– is applied between the chip and the cooling block so that heat may be transferred and chip temperature may be kept low. The technology, which was developed by IBM originally to cool high power computer chips, gives an excellent thermal performance at a low cost. CPV technology has the capacity to provide the lowest-cost solar electricity for large-scale power generation, as long as the temperature of the cells are kept low and cost-effective optics can be developed for concentrating the light to high levels. Aside from photovoltaic research, IBM is also involved in energy efficient technology and services, advanced water management, carbon management, intelligent transportation systems and intelligent utility systems. IBM Research lead photovoltaics scientist Dr. Supratik Guha said that he believes IBM can supply knowledge from their extensive experience in semiconductors and nanotechnology to the field of alternative energy research.
Sunshine Chen is a seasoned writer, having travelled around the world, largely putting all her experiences and the sights and sounds she has come across to paper. She now writes extensively about topics related to green news, mostly on renewable energy, but also on a variety of related topics as well. When not travelling around the world, she is based in Central Hong Kong, taking in the myriad colours, flavours, and scents of the melting pot that Hong Kong is known for.
Quantum Dots Enjoy the Glow of a Bright Future
May 2, 2010 by AboutNanoWires.com · Leave a Comment
Quantum Dots Enjoy the Glow of a Bright Future
Quantum Dot’s Flexability Make them Useful in a Number of Areas
Many people have never heard of quantum dots, but they are an increasingly important part of nanotechnology. Quantum dots nanotechnology are approximately 5.5 to 6.5 nanometers in diameter. Nanometers are very small; equivalent to 1/1,000,000,000th of a meter. Though small, quantum dots are making a big difference in a number of areas including medicine, lighting, and solar energy.
Quantum Dots in Medical Technology
Quantum dots are being used in medical technology to track and monitor cell changes. Quantum dots are much brighter and more stable then their predecessors in medical technology, which were organic dyes. These benefits allow for much clearer results, and longer observation periods. Quantum dots are currently being used to track the development of cancer cells, so there’s a chance that the use of quantum dots in medicine could lead to better cancer treatments in the future.
Quantum Dots in the Home
Another use of quantum dots is in LED lights. LED stands for Light-Emitting Diode, and it is the newest technology in lights. Compact fluorescent bulbs are already more efficient than incandescent bulbs, and LED lights last four times as long and use half the energy of compact fluorescent bulbs. The biggest problem with LED lights is that they are new still a new technology, so the cost per bulb is still high. As with all new technologies, price goes down over time. This means that eventually LED lights will replace compact fluorescent bulbs as the light bulb of choice.
Quantum Dots in Solar Technology
A hot topic currently is solar energy, and quantum dots are being used in solar energy research as well. Much like how quantum dots are being used to improve LED lights, quantum dots are being used to improve solar receptors. Currently the theoretical limit for energy conversion is 33%, while using quantum dots increases the efficiency to approximately 60%. This is due to quantum dots’ ability to absorb and emit radiation. If the integration of quantum dots into solar receptors goes well it could be a major factor in solar panels becoming more mainstream and practical.
Keep an Eye Out for Quantum Dots in the Future
As you can see, there are a number of industries who need to buy quantum dots. Quantum dots are an exciting and emerging new technology which a great deal of potential. Keep and eye out in the future for some of the advancements mentioned here involving quantum dots.
Potomac College offers a Bachelor?s Degree in Government Contract Management. Studying at Potomac, is the opportunity to learn foundational principles of managing government contracts for programs related to the government, Washington D.C and Virginia. You can finish your program of studies quickly and receive the career training. Apply now!For more visit http://www.potomac.edu and http://www.potomac.edu/degree-programs/bachelor-degree/government-contract-management
Wake Forest earns patent for efficient, inexpensive fiber-based solar cells
April 11, 2010 by AboutNanoWires.com · Leave a Comment
Wake Forest earns patent for efficient, inexpensive fiber-based solar cells
Wake Forest University has received the first patent for a new solar cell technology that can double the energy production of today’s flat cells at a fraction of the cost.
Read more on PhysOrg
Hague Corp.’s Subsidiary, Solterra Renewable Technologies, Announces the Appointment of Renowned Technologist Dr. Bob …
March 24, 2010 by AboutNanoWires.com · Leave a Comment
Hague Corp.’s Subsidiary, Solterra Renewable Technologies, Announces the Appointment of Renowned Technologist Dr. Bob …
Solterra Renewable Technologies, Inc., a solar technology and quantum dot manufacturing company (and a wholly owned subsidiary of Hague Corp (OTCBB: HGUE) today announced the appointment of Dr. Robert A. Glass to the newly created position of Chief Technical Officer, reporting to the CEO. (PRWeb Mar 23, 2010) Read the full story at http://www.prweb.com/releases/2010/03/prweb3766334 …
Read more on PRWeb
