An Overview of Nanotechnology

With state-of-the-art expertise and advanced techniques, there are various technologies that has evolved and revolutionized various aspects of day to day living and industrial know how. Nanotechnology is one of them. The usability differs from one industry to other. It is considered to be that part of science that has the capability to involve several fundamentals together. The rise of nanotechnology has been witnessed and accepted with open arms in every field.

The prominence of Nanotechnology can be felt in the research centers with constant evolution of new solutions and techniques. Various different approaches find their ways to control, manage and maintain better ways to use Nanotechnology. With its high impact and powerful functioning, the performance can be altered to suit the different requirements. It proves wonders for glass protection and other types of protective coatings.

When it comes to shielding and protecting items from contamination, dust, debris, moisture, liquid oil, etc, Nanotechnology is the best solution. The technology works as Protective Coatings and safeguards glass items from getting spoilt. It gives the products additional life span by keeping it well maintained and highly clean. There are huge benefits of Protective Coatings and it facilitates in improving the overall functionality of the glass and other silica based surfaces.

Choose Nanotechnology for that crystal clear look for your glass panels or glass walls. Make the most of this technology and give your products an added advantage of improved life span. Protective Coatings are highly popular for residential, official, auto applications and various other sectors. The layer creates a shield that is dust, water, oil, debris resistant and allows the material to remain clear and spotless.

The usage of nanotechnology and its coating can be witnessed in Shower Enclosures. The protective coatings make it stay clean for longer time. It gets easy to maintain and also enhances the look and feel of Shower Enclosures. Cleaning is easier and can be done by wiping it with cloth. Other than this, for all types of surface care, Nanotechnology can be used and keep your surfaces as good as new.

Biomedical Engineering Training Studies

The use of medical tools and aides to treat patients is possible by integrating medicine and biology to create workable technologies. Biomedical engineering is a field that is highly specialized and students can enter an education through numerous colleges and universities. There are a number of things to learn prior to enrollment in an online biomedical engineering school.

1. Studies encompass all the areas that are needed to create usable technologies for the health care field. These can include inflatable casts, ear thermometers, surgical staples, and magnetic resonance imaging machines. Students dive into a curriculum that covers biology in regards to medical engineering. Biomechanics, biomaterials, biomedical systems, linear differential equations, biofluids, and nanotechnologies are some courses that make up the overall career study. Education concentrates on how to combine science and technology to create needed biological processes to deliver improved health care. Over 100 colleges and universities offer degree programs allowing students to utilize their strengths. Specialties can include medical imaging, rehabilitation engineering, biomaterial engineering, and biomechanics engineering.

2. Introductory courses like biomedical engineering, research, and nanotechnology are typically taken in the first two years of a degree program. An introduction to biomedical engineering course teaches students the history and social relevancy of modern bioengineering areas. Study covers industry areas like action potential, signal process, genetic engineering, and bioimaging. A research course goes into how to collect and analyze biophysical measurements. Colleges teach students the process, which includes measuring, testing, and linear regression. Collecting data using different equipment like A/D boards is also touched on. The use of emerging nanoscale materials is taught in a nanotechnology course. The study on this newer form of technology is centered on applications that include electrical, biomedical, and mechanical engineering.

3. In the third and fourth years of a traditional program studies focus more on advanced subjects and concentration courses are taken. Biomechanics engineering, genetic engineering, tissue engineering, and drug delivery engineering are a few courses included in the second portion of a typical degree program. A biomechanics course focuses on the mechanics that apply to living organisms. The behaviors of organisms are studied to understand how biological processes restrain them. A genetic engineering course teaches students to understand how molecular bioengineering works and how it is used inside the industry. All areas of genetics are taught, which includes DNA breakdown, cell information, and recombinant technology in regards to DNA. Students look at all the societal issues and ethics related to genetic engineering to establish considerations for regulation. A drug delivery course focuses on the engineering of designing systems that administer drugs to patients. Biocompatibility and the formulation of controlled release devices are focused on. These courses make up key areas of studies that students follow up with advanced training and understanding.

The Green Technology

The Green Technology (greentech) also known as environmental technology (envirotech) and clean technology (cleantech) is the integration of modern technology and environmental science to better preserve the global environment and its natural resources and to mitigate the negative effects of human activity on the planet. Greentech is centered on sustainable development. It is a realm of new innovations that aim to make changes in everyday living. It can be considered to still be in its developmental stages and is still crawling its way into the market dominated by products and services that do not take the environment into consideration when trying to provide for the consumer’s wants and needs. Growing awareness of the dire state the planet is in however have caused the delegation of massive resources to the research and development of cleaner technologies which raises hope for great advancements on the said field.

Aims of Green Technology

Green Technology is considered as the future of society because we cannot go on using harmful technologies that cause negative impacts on the environment and every form of life that depends on the planet for sustenance. We humans who are supposed to be caretakers of the planet are taking it into a path towards desolation and death. Greentech aims to find and develop ways of providing man’s needs without causing damage to environment or depleting the planets natural resources too fast. Hence it provides alternatives to conventional technologies that can present almost the same level of satisfaction but with significant reduction in the negative effects to the environment.

Promoting recycling is also another goal of Green Technology through providing product alternatives that are reusable and recyclable hence significantly reducing the amount of waste and pollution that is produced during man’s production and consumption of his wants and needs.

Types of Green Technology

1. Energy
This is the most pressing issue that needs to be intervened by greentech. Conventional forms of energy generation such as fossil fuels like coal and oil produce huge amounts of pollutants when they are extracted and combusted. Almost all of the world’s air pollution is energy related. Air pollution leads to global warming and climate change. Fossil fuels are also limited and it may just be a matter of time before they are depleted. Finding and developing renewable sources of energy that will never run out is therefore one of the priorities of greentech.

2. Building
Designing and constructing buildings and infrastructure in such a way that they help conserve natural resources is also classified as Green Technology. An example of a green building is one which is built in such a way that it can keep itself cool during the day and warm during the night thus effectively reducing or even eliminating the need for heating and cooling systems.

3. Preferred Purchasing
Green technology advocates the use of a variety of techniques that enable a consumer to fund products and a manufacturer to find methods of production that have the least negative impact to the environment. General conduct of environmentally preferred purchases will prompt producers and sellers to shift to the green side of the market.

4. Chemistry
Greentech also searches for chemical products that can reduce or eliminate already existent harm to the environment such as oil spills.

5. Nanotechnology
Greentech aims to develop innovations that can integrate green principles to nanotechnology.

Science Fact – Robotics Could Help Spinal Injury Victims Move Again

Groundbreaking new technology, originally developed by the US military to help wounded soldiers who have lost limbs regain movement in prosthetic limbs, could have the capability to help spinal injury victims as well. The research, funded by the US Department of Defense and developed by the Neurophotonics Research Center, will develop a two-way fibre optic link between nerve endings and prosthetic limbs, but could also be used to ‘patch’ spinal cord injuries.

Giving amputees the chance to ‘feel’ again

For amputees, the fibre optic link allows signals to be sent between the brain and the artificial limb, allowing the user to move and even ‘feel’. But the research team leading the development also predicts that the same technology will eventually allow doctors to ‘patch’ spinal cord injuries and restore movement to parts of the body that have been paralysed. Although this application of the technology is still some way off, the researchers believe that the first positive steps in developing robotic patch technology have been made.

The project is being funded by DARPA with a grant of £5.6million and while the technology is initially being designed to help military personnel returning from the conflicts in Iraq and Afghanistan, it could have major implications for civilian use as well. The goal is to develop a link that is compatible with living tissue which will connect powerful nanotechnology to the human nervous system through thousands of sensors running in a single fibre. Unlike electronic nerve interfaces, the fibre optic version has a much lower chance of being rejected by the human body. It is hoped that the technology will go on to treat spinal injuries by patching the broken link in the spinal cord and allowing neuro-impulses to be transmitted from the brain to muscles and tissue below the initial break.

Science fact, not science fiction

Although this sounds like science fiction, scientists now have the technology to develop it into a viable method of treating such injuries, and the medical expertise to understand exactly how the human nervous system works. With the development of nanotechnology, implants that can stimulate nerve impulses are only a few years away and could mean a revolution in the way neurological disorders and spinal injuries are treated.

Research teams across the world have currently been working on developing individual pieces of the solution, but the grant from DARPA has enabled the Neurophotonics Research Center to call in teams from some of the most prestigious research institutes (both military and civilian) to start putting the puzzle together. They hope that now everyone is working towards the same goal, they will be able to develop an integrated system that works at the cellular level within the next few years. By bringing together an advanced optical nerve stimulation process and technology that senses the neural impulses of the brain and then relays those impulses to the body, the team could create the ultimate two-way fibre optic interface and take neurotechnology to a new level. Marc Christensen, director of the Center, describes the research as having the potential to revolutionise the field of brain interfaces and believes that it could have “immeasurable benefits to humanity”. For spinal injury victims, it could mean that there is now a glimmer of hope that they will be able to regain full movement of previously useless limbs and that a chance for full recovery is now a viable, if still distant, hope.

Nansulate Reviews

At one time the largest airport in the world was in Bangkok, Thailand. After being built the developers wanted to use the most groundbreaking ecological technology in their design so they decided on nanotechnology based heat barrier paint to provide a clear lining that protected their aluminum air-bridge walls from weathering and moisture.

The coverings protected in a thin, transparent coat with a much longer lifetime than old-style fibrous insulation, while also matching beautifully with the design aesthetics.

Since the initial 2005 installation, that same insulation coating is still keeping the Suvarnabhumi International Airport green and energy efficient.

Applying this insulation is also very cost efficient and does not require costly machinery or manpower. The coatings are coated on like paint, with a sprayer, brush or roller, onto walls, ceilings, roofs, or attics.

Nanotechnology-based heat resistant paints have been used around the world since first being introduced in 2004, and are surprisingly just now growing popular in the UK, which is a bit lagging behind other countries in usage of this cutting edge tech, although recognizing its value years ago. In 2007, Nansulate, a patented portfolio of heat barrier paints, were brought up in a report titled, “Environmentally Beneficial Nanotechnologies: Barriers and Opportunities” by the Defra (Department for Environment, Food and Rural Affairs). Under scientific analysis, five nanotech applications were put through a detailed study, and nanotech was found to have the capability to contribute to reducing greenhouse gas emissions by up to 2% in the near term and up to 20% by 2050.

Nanotechnology and Energy Savings

Nanotechnology is merely the manipulation of ingredients at a smaller scale than previously able to. By manipulating material at the nano scale, materials can be built from the atomic level upwards with much less waste. Materials can take on dissimilar characteristics when you handle them at this level, such as silver having anti-microbial properties or the ability to insulate in a much thinner layer.

Nansulate heat barrier paint technology incorporates a harmless micro-sized nanotech based matter with nano sized makeup that has a very low heat conductivity. Furthermore the matter is hydro-phobic, which offers mold and mildew resistance without the use of toxin or poisons. This matter is delivered in a uniquely formulated clear, love VOC, water-based coating that has outstanding adhesion and light resistance.

Reduction of heat as tested to ISO 8990:1990 “Standard Test Method for Steady-State Thermal Performance of Building Assemblies” over 8 centimeter plastered, brick walls, was 34.8% at a standard 3-coat, which is approximately 6-7 mils dry film depth, and average energy savings reported by home and building owners is between 20%-40%.

Nansulate gained the European Energy Performance of Buildings Directive certification for building construction standards in the European Union from the UNI EN ISO 8890:1999 tests, in regards to building lining specifications. Nanotech Coatings UK Ltd has also been given a contract with the British Board of Agreement, (“BBA”) for tests for the stated utilization of the product on inside walls and ceilings, and outside walls in residential houses for application over inside plaster and outside paneling.

The most difficult of buildings to provide insulation for are old ones. Lots of these contain solid block wall constructions that make it hard to insulate with traditional insulations. Furthermore, outdated fibrous insulations are very vulnerable to humidity, dirt, and other impurities which damage their effectiveness over time. By utilizing a fluid insulating technology that is applied just like a paint, life of the insulation is increased dramatically as well as constancy of performance. Nansulate coverings typically last from 5 to 10 years in outdoor applications, and over ten years in protected inside environments. The coat line is meant to last in all forms of severe environments from offshore oil platforms to freezing climates in Alaska.
Applying the paint is also very cost efficient and doesn’t need costly material. The coats are put on like paint, with a regular sprayer, brush or roller, onto walls, ceilings, roofs, or attics. The job is much like painting a wall; just it is done with a transparent insulation.

Mexico’s Government Health and Social Security administration (IMSS) – applied the Nanocoating in 2009 on the roof of their data center in Monterrey. This site holds the data servers which houses their digital patient information, and these servers were dying due to too much heat in the summer. Following the application of the coating and comparing year over year temp measurements, they confirmed reduction of the inside temperature by 27% and their issue with sever shut-down was resolved.

Homeowners benefit greatly from the ease of use and energy savings, with one Canvey Island residents Nansulate review being, “Prior to painting, our heating costs were quite high compared to what they are now. In fact, since applying the Nansulate I have been able to lower the thermostat from 5.5/6 to 3, basically halving the temperature.”

The future of insulation and energy efficiency is with nanotechnology. Just as computers and cellphones have become smaller and more efficient, so has our insulation technology. Heat resistant paints are the way of the future as the world gravitates toward more Eco friendly and efficient technologies that are inexpensive.

Computer Technology Helps Catch the Bad Guys

Life’s becoming a little more difficult for lawbreakers, thanks to some new digital technologies. For example, British researchers have developed a fingerprint compression technology that transmits prints from a crime scene to a fingerprint bureau in a fraction of the typical four to 20 minutes. The same researchers are working on a technology to identify shoe impressions taken from crime scenes-a procedure currently done manually.

Police in Richmond, Virginia, are introducing data mining, predictive analysis and business intelligence tools to respond more rapidly to a crime, and possibly to prevent future crime from occurring. LAPD police are using video surveillance and criminal recognition software to get a bird’s-eye view of activities in a crime-riddled area.

CompStat

Various technologies are gaining prominence, such as the somewhat controversial but highly regarded CompStat. CompStat assists law enforcement organizations in collecting and organizing crime information quickly. This, in turn, allows officials to identify emerging patterns in criminal activity, and allows police agencies to deploy resources more effectively.

According to BlogHouston.net , proponents describe this technology as an “advanced statistical analysis of crime aimed at preventing future crime.”

This award-winning program is said to have reduced crime rates through increased police accountability. Various law enforcement agencies across the United States, including the NYPD and the LYPD, use this program to analyze data and plan crime-prevention tactics. The program apparently played a key role in the well-documented reduction in crime enjoyed by New York City under the hand of former mayor Rudy Giuliani.

In With the Old

Sometimes harnessing the power of crime-fighting technologies involves using older technologies in new and inventive ways. For example, in late 2006, New York City announced plans to equip 911 call centers to receive digital images and digital videos sent from cell phones and computers. When citizens report a crime in progress, they can simultaneously send pictures or video of the crime scene, the perpetrator or the victim.

The digital imagery provides emergency response workers and law enforcement teams with a better understanding of the situation, and is likely to offer information not provided by panicked callers. The response teams can therefore better access the preferred approach to handling the incident. Empowering citizens to use everyday technology in this way was a world first, according to Mayor Michael Bloomberg.

In a similar vein, the New York City is combating domestic violence in part through the MapInfo Professional mapping software application. This tool allows law enforcement personnel to better visualize relationships between data and geography.

The city is also using MapInfo’s Mapmaker tool for mapping and analyzing data and adding geographic coordinates to database records. A city spokesperson reported that he had imported miscellaneous, city-based data-such as roadmaps, English proficiency ratings and homicide rates-into MapInfo, and then overlaid that over a map of the city to display patterns and trends.

The information generated by these tools assists the city in deciding how resources should be allocated. It also reveals information about an area’s cultural makeup and languages most often spoken in that community. Knowing where domestic violence victims live and the language they speak allows law enforcement officers to better communicate with victims.

Real-Life Success

These and other forensic technologies translate into real-life success stories that impact upon our lives in ways we could not have imagined 20 years ago. For example, in San Jose in October, a man driving a stolen Toyota kidnapped a 12-year-old girl. The girl escaped and reported the incident to the police. The kidnapper abandoned the Toyota. Some hours later, a patrol car using license-plate recognition technology passed the Toyota. “Stolen car” remarked the technology’s computer-generated voice. The police officer discovered evidence in the Toyota that led to the arrest of the kidnapper.

Europe and Britain have used license-plate recognition technology for more than 20 years, but it is relatively new on the scene in the United States. The police have been able to enter license plates into a computer manually, but this technology lets them scan the plate of every car they pass. An officer can now check as many as 12,000 plates per shift, instead of the 50 that could be done manually. Although the technology raises concerns with privacy watchdogs, it is difficult to argue that any privacy violation occurred in this example.

In another interesting and recent development, Thai researchers used nanotechnology to develop a set of eyeglasses that easily detect invisible traces of bodily fluids left at a crime scene. The scientists applied nano crystallized indium osynitride to glass or plastic lenses. These special lenses can filter light waves of various lengths, and allow the user to see invisible traces of saliva, sperm, blood and lymph immediately.

The current technology-a forensic light source-also allows investigators to see traces that cannot be seen with the naked eye. However, this is an awkward and time-consuming procedure, since forensic teams must check separately for each type of fluid. Once the new technology is patented and commercialized, it will dramatically speed up this process.

Closer to home, researchers at the University of Missouri-Columbia have found a mathematical solution that can separate one sound from another in a recording of a noisy environment. In what is referred to as the “cocktail party” problem, sound editing technologies have been unable to separate one voice from many voices in busy environments, such as the cocktail party example, or in a crowded mall. Researchers in the past have separated voices, but could not reproduce the voice’s characteristics.

Current technologies are not completely reliable because they confuse voices with other voices with similar pitches. With the new mathematical solution and assistance from computer programmers, the researchers hope to develop a software application that will allow law enforcement agencies or the Department of Homeland Security to isolate voices or sounds with reliability.

Sadly, though, there’s a flip side to all this good news. In an interview with Computerworld magazine, Frank Abagnale, the notorious (former) criminal depicted in the movie Catch Me if you Can , remarked that it would be 4,000 times easier for him to commit his crimes today than it was 40 years ago-and that today he probably wouldn’t go to prison for it.

“Technology breeds crime-it always has, it always will,” he is reported to have said.

Three Emerging Technologies that Will Change the World

I was speaking with a friend the other night about his great grandfather. His great grandfather was born in 1875. He lived until 1965. Can you imagine the technology that this man saw come online? Let me name a few: the typewriter, the electric dental drill, the telephone, the phonograph, the incandescent light bulb, the hearing aid, the electric fan, the dishwasher, the escalator, the airplane, the Model T automobile, the air conditioner, the defibrillator, the atomic bomb, the electric guitar, the nuclear submarine, nylon, the polio vaccine, and the laser. He died right when the first minicomputer was coming to fruition. All of that in the span of his lifetime. Which leads me to the topic of this article. Technology has completely changed the way we live. And technological advances have accelerated at unbelievable speeds. Technology is converging in ways no one could have foreseen. I want to highlight some of the most interesting technologies out there. These are technologies that will change the world, for good and bad.

Nano Technology

Probably the most interesting and frightening of the emerging technologies is nano technology. Nano technology is a cross disciplinary field that deals with building and synthesizing materials at scales of 100nm or less. Nano technology usually works in one of two ways. It either pulls smaller parts together to build or it breaks bigger parts down. The parts are then used to form smaller, new materials. But why is nano technology so important?

Nano technology is important because it will have massive effects across every area of life. As I write this, researchers are working on a nano particle to target cancer cells in lungs. In 2004, Rice University tested gold nano particle cancer treatment. In this treatment, these 150 nanometer gold particles were injected into the blood stream of cancerous mice. Gold particles at this size pass into tumors, but not healthy tissue. The researchers then passed infrared through the mice. The tumorous cells absorbed the infrared, heated up, and were destroyed. They are also working on quantum dots that allow doctors to easily identify multiple diseases quickly and accurately. But the uses don’t stop there. Nanotechnology will drive down the scale of electronics. This will lead incredibly small devices. The applications are limitless. And you can bet that the military will be clamoring for nano technology. The military is looking to have numerous nanotechnologies online by the year 2015. Such advances include performance enhancing nanotechnology that aids bodily functions. These will include response times, oxygen use, and heightened senses. But nanotechnology can also be used for reconnaissance and combat. Nanobots could scout areas without being seen. They could also enter into enemies for espionage. They could kill targets from within the host’s body. The possibilities are frightening.

Alternative Energy & Fuels

When gas prices skyrocketed this past year, many people suddenly took an interest in alternative energy and fuels. And because demand rose, companies suddenly found themselves forced to take interest. Most of the common arguments for alternative energy and fuels center around issues of pollution, cost, dependence, and jobs.

What most people don’t realize is that alternative energy and fuels always have environmental effects. This can be in the form of heat generation, air pollutants, waste by-products, land usage, extraction, etc. Instead, we have to talk about pros and cons around each type of energy and fuel. There is no silver bullet. Costs, dependence, and jobs also vary depending on the energy type.

There are a host of alternative energies being tested. Wind powered energy plants are already in place in many parts of the world. Solar energy production has taken huge steps forward with the help of nano technology. One such company is Nanosolar. Nanosolar is producing solar cells that are 100 times thinner than conventional cells. Not only are the cells cheaper to produce, but they also convert the solar energy much more efficiently. Ocean thermal energy conversion (OTEC) uses the temperature differences in the ocean layers to produce energy. And OTEC can utilize this colder water (36 degree F cooler) in other things like on shore agriculture and refrigeration. And the list goes on.

Massive interest was generated in alternative fuels this past year when gas prices hit record levels. New developments in battery technology could help. One such development is Millennium Cell’s hydrogen battery technology. This technology differs greatly from traditional rechargeable batteries in that it’s instantly rechargeable. It also has a much great efficiency for energy conversion, so it is much smaller and lighter. There is also greater reuse efficiency since you don’t need to replace the entire battery. You only need to replace the energy module. Developments are continuing in biodiesel, electric, hydrogen, methanol, etc. I think there could be some serious future synergy between nano technology and alternative energy.

“Bionetics”

This is my name for the incorporation of technology into the body. The dermal display is a great indication of things to come. Though I have yet to find a working demo version of this concept, I have no doubt that it will become a reality. The display would be driven by millions of nanobots. These nanobots would display light when touched. This would print a display onto your hand, or wherever the nanobot display would be housed. And this is where it gets really interesting. The display nanobots would be connected to millions of other fixed and mobile nanobots throughout the patient’s body. This would give instant readings on hundreds of vital statistics. Again, nanotechnology plays a strong role here.

The bionics revolution is already underway. There have been four major cases of robotic limbs recently, the latest being a woman. The robotic limbs take advantage of the functional nerve endings in the limb stump. These nerve endings are used to actuate the robotic limb and to provide feedback to the brain. More money is being poured into robotic limbs every year.

“Functional bionetics” are implants that enhance our lives. And you may be surprised to know that people are actively doing this as I write. People are inserting tiny electronics in their bodies that will unlock their front doors and their cars. The same technology is being used to unlock computers. But it doesn’t stop there. There is talk of implanting devices that will carry health information. You could be carted into a hospital totally unconscious and they would be able to access all of your past medical history. Most of this is done through RFID technology.

“Bionetic networks” will be networks of connected bionetic devices. This would allow people to share sensation, feelings, and communication. If this sounds completely fictional, I invite you to consider the work of Kevin Warwick, Professor of Cybernetics at the University of Reading, England. He has implanted an extra-sensory device that interfaces with one put in his wife. They were implanted in their arms. The first experiments are aimed at exchanging sensory inputs, like pain. The hope is to extend that to other, more complicated neurological processes like thoughts and emotion. Obviously, that would drastically change relationships and indeed the world. Forget about your teens text messaging, maybe they will be brain linking in the future. Now that’s really scary!

What will we be able to say came online in our lifetimes? I’m sure we could already list a lot of important technologies. But keep your eyes out for these emerging technologies. They are set to change the rules of our world. These technologies will upset economies, change military tactics, empower people, and be used to control others. Keep an eye on them.

Acupuncture Meets Nanotechnology

Legend has it that a long time ago, our wish was to win a greater measure of life:a wish to tap into our hidden vitality and gifts:a wish, that just maybe, we might discover the real meaning of the fountain of youth.

We all know that death and aging are inevitable, for ALL humans, no matter how monetary rich or poor we might be. However, the difference is how we live that life, how we age and decompose, because all the money in the world cannot buy happiness and fulfillment: it has to come from within ourselves.

I have been practitioner of healing for many years now, maybe even life times, according to the mystics who have experienced my work. Some say they see me in Tibet many centuries ago, others have seen Jesus appear for them during our sessions, while still others may reach orgasms of love and well being. What it all means in reality, is the light that shines through all of us and connects us, is energy. Yes, energy. I have no doubt that we are light and energy, housed in materials we call our bodies.

So, when I was introduced to this amazing new technology, that combined the ancient healing techniques of Acupuncture, meridians, and pressure points with nanotechnology, at first I was skeptical, then stunned and eventually so swept off my feet, that it is six months later and I still have not landed.

To discover that biologists and scientists were working with allopathic medical doctors on a project that combined these ancient wisdoms with our new modern technology was absolutely mind blowing.The closed minded medical profession was waking up to reality, finally! And that is good news.

It is quite ironic really then, to discover that this new awakening actually came about to help troops in the field operate at higher levels of stamina and efficiency, so that they could protect themselves better while perhaps in combat killing others.

Now, we the living people of the world, have access to this amazing technology, and can improve our lives, our families and our friends lives, by making use of these new gifts.

Everyday someone comes into my healing center and is is helped through this great and amazing technology, invented by David Schmidt, and I want to thank David for the passion and love he has for community on this planet.

When I see a smile slowly creeping in, as the pain subsides, my heart sings, and once again I am grateful for those who have the ability to invent, to see the possibilities and to go where no one else has gone before them, with the intention of peacefully helping everyone, no matter what our so called station in life is.

The Dangers of Nanotechnology

We are fascinated every-time a new electronic or product comes out that is smaller, cheaper, and faster than ever. We are fascinated at how technology is advancing and how efficient we can use the resources around us to make life easier. However, even if it appears to be legitimate and based primarily through the advancement of human knowledge, the phrase “It seems too good to be true” never seems to lose its popularity. Nanotechnology is being used every day to develop new electronics and products. However, are we taking a hit to the environment and to our health with the use of these products?

Nanotechnology is a branch of science that deals with particles 1-100 nanometers in size. Billions of dollars are being pumped into incorporating nanotechnology. Many experts believe that possible dangers of nanotechnology lie within how these tiny particles may interact with the environment. Many experts say that elements encountered on the nanoscale behave differently than their larger counterparts. Here are some facts about nanotechnology that need some attention to:

1. Nobel-winning physicist Richard Smalley of Rice University discovered that carbon nanotubes and fullerenes, which are nanoparticles of carbon, react differently to the environment. These nanoparticles of carbon behave in ways differently and make their classification a potentially dangerous one.

2. In March 2004, environmental toxicologist Eva Oberdörster, Ph.D. conducted some tests with the Southern Methodist University in Texas. They found that there was extensive brain damage to fish that were exposed to fullerenes for a period of only 48 hours at a relatively moderate dose of 0.5 parts per million. They also experienced gene markups in their livers, which indicates that their entire physiology was affected in the process. In a concurrent test, the fullerene killed water fleas.

3. In 2002, CBEN (Center for Biological and Environmental Nanotechnology) indicated that nanoparticles accumulated in the bodies of lab animals and fullerene could easily travel through soil and be absorbed by earthworms. This is a potential link up in the food chain to humans.

4. In early 2002, the University of California in San Diego revealed that cadmium selenide nanoparticles, also known as quantum dots, may cause cadmium poisoning in humans.

5. In 2004, British scientist Vyvyan Howard published initial findings that had indicated gold nanoparticles might travel through a mother’s placenta to the fetus.

6. In 1997, Oxford scientists discovered that nanoparticles found in sunscreen created free radicals that had damaged DNA.

The smaller the particles, the more bio-active, damaging, and toxic they become. This is because their ability to interact with other living systems increases, make it easy for them to cross the skin, lung, and blood/brain barriers. Although we humans have built-in defenses to protect ourselves from natural particles we encounter, nanotechnology is introducing new kinds of particles that some experts say the body might find toxic. Those highest at risk are those employed by the manufacturers to produce products that contain nanoparticles.

The National Institute for Occupational Safety and Health (NIOSH) reported that over two-million Americans are exposed to high levels of nanoparticles. They believe that this figure will soon rise to four-million in the near future.

Nanoleaves – SolarBotanic Biomimicry Nanotechnology Trees

SolarBotanic is a firm that specializes in an emergent tech labelled biomimicry which imitates nature, and utilises natural inspired systems. The company which specialises in harvesting the energy of the sun and wind by embodying substantiated science into an inventive nanotechnology. At the present time SolarBotanic is centering on energy production, plus they have developed an ingenious concept called Energy Harvesting Trees.

These super eco friendly synthetic trees will make use of renewable energy from the sun along with wind power, which are an effective clean and environmentally sound medium of gathering solar radiation and wind energy. In this biomimicry theory, the artificial trees are implanted with Nanoleaves, a composite of Nano photovoltaic nanothermovoltaic and Nanopiezo sources transforming light, heat and wind energy into eco friendly electricity. The Nanoleaves transform the whole solar scale converting detectable light, infrared and Ultraviolet in a unification with piezo electric generators that alter wind energy into electricity giving you efficient, cost efficient and attractive looking solutions, whilst providing the greatest electric power.

Biomimicry is an developing science attempting to solve human difficulties by fostering nature’s clever systems. This job is accomplished by way of the use of natures design, synthetic trees, shrubs, plants and flowers all armed with nanoleaf engineered PV cells. Biomimicry and Nano technology is intrinsic to SolarBotanic’s ethos.

SolarBotanic residential offerings (trees, shrubs, plants etc) will offer up to 50% more energy than traditional solar systems, and in addition will blend in beautifully with your surroundings. SolarBotanic’s trees will have the capability of supplying a individual home or can be placed in regions where natural growing bunches of trees would formerly have been utilized. The solar systems can even be positioned on the ground, roof, or parking structures.

SolarBotanic’s renewable energy contains enormous potential as a additional or substitute to fossil fuels for providing energy marketplaces worldwide in addition to developing countries. The company has received approaches from various Government organizations who will supply leading Research and Development resources and attracted investor groups. This emerging yet brilliant method of energy entrapment is both clean and renewable with a broad range of applications.