Raytheon Co. (RTN) Profile & Nanotech & MEMS Industry Trends Analysis 2010

Posted by admin on Aug 11th, 2010 | 0 comments

Raytheon Co. (RTN) Profile & Nanotech & MEMS Industry Trends Analysis 2010

This summary contains complete trends chapters excerpted from Plunkett’s Nanotechnology & MEMS Industry Almanac. Wield this tool for strategic planning, business development, or industry analysis. It includes our analysis of the major trends affecting the nanotechnology & MEMS industry today. In addition, we provide a comprehensive profile of Raytheon Co. (RTN), including company contact information, financials, geographical locations, executive contacts and a detailed research analysis.

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The Future Of Technology

Posted by admin on Jun 21st, 2010 | 0 comments

The Future Of Technology

It is exciting to look into the future of technology. In an age of continuous innovation and invention, when the discovery of today loses its sheen tomorrow, it is not easy to pinpoint technologies that will transform our future.

Engineering and technical developments are everyone’s concern, as they will not be confined to industry, university classrooms, and R&D labs. Instead, they will make a tremendous difference in our day-to-day lives. Here I will attempt to identify some of the technologies that will revolutionize our lives and our values in the coming years.

1. Quantum Computers
Unlike current PCs, quantum computers will have switches that can be in an on or off state simultaneously. The mechanism that will make this possible is known as superposition, and the switches are referred to as quantum bits. The system will make quantum computers operate very fast. A basic quantum computer is likely to be operational by 2020.

2. Programmable Matter
Scientists are in the midst of creating a substance that can take a specific shape to perform a specific task. The substance is known as claytronics, and it consists of catoms. Individual catoms are programmed to move in three dimensions and position themselves so that they assume different shapes. This technology is likely to have numerous applications ranging from medical use to 3D physical rendering. It may take around two decades to become a reality.

3. Terascale Computing
Techies are working on a project that would make our PCs able to contain tens to hundreds of parallel working cores. The device will have the capability to process huge amounts of information. To create this technology, Intel is exploring the possibility of using nanotechnology and allowing for billions of transistors.

4. Repliee Robots
Repliee is one of the most advanced life-like robots ever created. Repliee, an android, is covered with a substance which is very similar to human skin. Sensors placed inside the robot control its movements and enable it to respond to its environment. Astonishingly, the robot can flutter its eyelids and replicate breathing. Repliee operates best in a static condition.

5. Organic Computers
To further advance the computing realm, techies need to create a hybrid CPU that is silicon based but contains organic parts as well. The most promising progress in information processing concerns a neurochip that places organic neurons onto a network of silicon or other materials. Future computers will be able to bridge the silicon and organic spheres to utilize processors that incorporate both of these elements.

6. “Spray-On” Nanocomputers
The “spray-on” nanocomputer would consist of particles that can be sprayed onto a patient. It would monitor the patient’s medical condition and communicate wirelessly to other machines.

7. Carrier Ethernet
Carrier Ethernet is a business service/access technology. It can serve as a transport method for both business and residential service. Ethernet will dominate the metro space in the future and will slowly displace SONET/SDH over the next 10 to 20 years.

Development sustains life. However, techies cannot afford to forget that technological advancement will remain inadequate in the absence of contributions from all branches of knowledge and will not flourish if it does not benefit society.

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Nanotechnology as Career

Posted by admin on Jun 19th, 2010 | 0 comments

Nanotechnology as Career

Nanotechnology – the science of the miniature, and the technology of the future – is one of the most exciting and wide area of research which may lead to the greatest technological advances of the 21st century. It is a global phenomenon and an emerging field, that finds its way into a myriad of industrial applications spanning across all areas of science and technology. A form of molecular engineering, it is the technology associated with the creation and scrutiny of minute objects, measuring between 1 to 100 nanometers. Nanotechnology can be defined as the application of science, engineering and technology to develop novel materials and devices in different fields in the nano-range.

‘Nano’ in Greek means dwarf. Nanometer (nm) is a unit of measurement used to measure very small particles like atoms and molecules. One nanometer is equal to one-billionth (10-9) of a meter. Entirely different from bulk material, nano-materials are 5,000 to 50,000 times smaller than the diameter of a human hair. These light but strong, transparent materials are very active and aggressive in any chemical reaction. Nano-materials can be mixed with strong or weak materials to make them thousand times stronger and more efficient. Carbon and diamond are super examples of nano-materials. The concept of Nanotechnology originated in 1959 and was founded by the American physicist Richard P Feynmam. But the term ‘Nanotechnology’ was first used in 1974 by Japanese scientist Prof. Norio Taniguchi at the Tokyo Science University. However it was introduced to the world in 1986 by K. Eric Drexler, an American Engineer and the founder of Foresight Nanotech Institute.

Nanotechnology is a unique and special branch of science that essentially combines physics, chemistry, biology, engineering etc. Sometimes known as molecular manufacturing, it deals with the design and manufacture of extremely small electronic circuits and mechanical devices built at the molecular level of matter. The application of Nanotechnology will open new avenues of research in the world of science and engineering in almost every field, from medicine to fabrics. Due to this, the relatively new field is fast emerging as the favorite of all kinds of technological arena and will be one of the most significant enabling technologies in the future.

Even though the field is popular abroad, it is quite recently that Indian industries have started realizing the commercial viability of Nanotechnology. In India, Nanotechnology is at its infancy stage and is targeted towards the main streams like electronics, healthcare markets, and other industrial products. Many scientific institutions have been doing Research and Development (R&D) in this field. The scope and application of Nanotechnology is tremendous and mind-boggling and it is one of the hottest career option available to Indian Engineering graduates. It is an apt career for those who have a scientific bent of mind and a passion for solving mysteries of the minutest molecules. Students with a science and engineering background and even mathematics with physics background can pursue Nanotechnology as a career. Candidates with M.Tech in Nanotechnology are in great demand both in India and abroad.

It is a powerful technology which aids the development of products with futuristic performance. All major sectors of life will be effected by this new area. The two major categories of Nanotechnolgy are Nanoscale technology and Molecular manufacturing. Nanoscale technology covers small structures and can be used for introducing stronger materials, better medicines, faster computers and so on. Molecular manufacturing is an attempt at building mechanical and chemical manufacturing systems that join molecules together.

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Maruman Majesty Prestigio FV-R Iron Set only $659.99 in www.mygolfwholesale.com

Posted by admin on Jun 13th, 2010 | 0 comments

Maruman Majesty Prestigio FV-R Iron Set only 9.99 in www.mygolfwholesale.com

Maruman Majesty Prestigio FV-R Iron Set only 9.99 in http://www.mygolfwholesale.com/goods-227-Maruman+Majesty+Prestigio+FV-R+Iron+Set.html . Maruman’s top-of-the-line Majesty Prestigio FV-R Irons are high performance, distance enhancing, elegant works of art. These Majesty Irons incorporate the toughest Maraging Steel face in golf. By incorporating nanotechnology with the Toughest Maraging Steel, the Prestigio FV-R Men’s irons can be made to a micro-thin 1.6mm face thickness. These elements combine to create a high repulsion iron that creates never before imagined distance. Maruman’s Prestigio FV-R Irons are for the golfer who demands the best in everything. Performance and Prestige. Maruman Prestigio FV-R. Irons availalbe in Regular, Regular/Stiff, Stiff Top of the line material on the face of the iron; using the strong Toughest Maraging Steel. Maruman has put the best of its technology into creating a topflight club using the top materials.

Maruman’s obsession with the club’s head is nothing less than asounding. We have thoroughly analyzed everything that happens between the ball and the head in order to exploit the greatest possible advantage of the best material. To achieve this purpose, we have repeated the crushing test of the ball and the head on-screen over and over, entering all the possible data and combinations of data in the computer. The head completed in this way adopts a design not only for a beautiful look but also for functionalities such as the individual thickness of each part, and the location of the gravity center. This realized repulsion as high as a driver’s, and obtained an optimal spin and a high initial launch direction as well.

The face adopts the strong Toughest Maraging Steel. The face thickness is decreased to 1.6mm. This brings out a repulsion force as strong as a driver’s. As the face is joined to the body by high precision laser soldering, the joint part is only as thin as 1mm. According to DFEM, the high precision design theory, the sweet spot is found in the most giving location, so the face as a whole catches the ball and springs it forward. The finishing is done by high chrome IP that has a high degree of hardness; it hardly gets scratched and will keep its luxurious sheer. Naturally, the shaft adopts a Nanotech Shaft of Fullerence composite. As it is manufactured light, it achieves good hitting, and even when your shot isn’t perfectly aligned, the stability in the direction will help the ball fly where you intended it to go.     Note: All of our golf clubs are from orginal manufactuers, and they have a warranty for 1 years. If you find any quality problems when you received, we can replace it for you. If you show interest in any golf clubs, please contact us via email or livehelp. We will make a reply asap.

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Nanotechnology In Healthcare: Market Outlook For Applications, Tools And Materials, And 40 Company Profiles-Aarkstore Enterprise

Posted by admin on Jun 1st, 2010 | 0 comments

Nanotechnology In Healthcare: Market Outlook For Applications, Tools And Materials, And 40 Company Profiles-Aarkstore Enterprise

This report covers different regional application markets, while evaluating them over the next five years. It provides information about the largest regional markets and factors influencing them, while defining the opportunities they present.

Key features of this report

• •Provides an analysis of market data (revenues) of healthcare nanotechnology applications in North America, Europe, Asia and Rest of World that includes Middle East, Africa, Russia, Latin America and Australia.
• Studies key market drivers and restraints for the main market and evaluation of respective sub segments with respect to market dynamics.
• Discusses drug delivery and formulations, biocompatible implants, regenerative medicine and wound care and diagnostics under the applications market along with related sub segments.

Scope of this report

• Understanding the existing and emerging applications of healthcare nanotechnology and their relative and forecast market sizes
• Understanding the product/technological developments on which the companies are focusing for their growth.
• Understanding the different nanotechnology based tools and their importance in the development of new products and applications

Key Market Issues

• Nanotechnology initiatives by developing countries are helping in the development of new products and applications.
• The delay in commercialization due to strict regulations and manufacturing difficulties is inhibiting product reach.
• Stability of nanoparticles inside the biological tissues is an important issue to be considered to reduce contamination by drugs.
• The development of biodegradable nanostructures will be a growth driver in future since they eliminate the issue of excretion.

Key findings from this report

• The healthcare nanotechnology market growth is largest in North America, at .75bn in 2009, followed by Europe at .65.
• The nanotechnology drug delivery market is expected to grow at a CAGR of 21.7% for the period 2009-14, to reach almost bn by 2014.
• Biocompatible implants and coatings and diagnostics comprise some of the major applications which are estimated to experience high growth between 2009 and 2014, 42% and 21.8% respectively.

Key questions answered

• What are the important healthcare nanotechnology markets and their growth over the period 2009-14?
• What are the major applications that have emerged in different areas such as drug formulations and delivery, biocompatible implants and coatings, regenerative medicines and wound care and diagnostics?
• In which areas are the companies focusing while forming strategic alliances with other industry players?

Table of Contents
Nanotechnology in Healthcare
Executive summary 16
Market overview 16
Healthcare nanotechnology market dynamics 16
Nanomaterials & nanotools for the healthcare market 17
Healthcare nanotechnology application market 18
Company profiles 19
Chapter 1 Market overview 22
Summary 22
Introduction 23
Market definition 23
Healthcare nanotechnology business processes 24
Healthcare nanotechnology applications 24
Healthcare nanotechnology application prospects 25
Opportunity matrix 26
Challenge matrix 28
Patent analysis 29
Chapter 2 Healthcare nanotechnology market dynamics 34
Summary 34
Introduction 35
Regional markets 36
North America 37
Europe 38
Asia 38
RoW 39
Competitive landscape 39
R&D activities by applications 41
New product launches 42
Collaborations & agreements 43
Market drivers 56
Nanotechnology research initiatives in developing nations 56
Innovations are increasing 56
Reduced toxicity 56
Market inhibitors 57
Delay in commercialization 57
Stability and other

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