A very nice, short video on emerging nanotechnologies:
http://www.youtube.com/watch?v=K3DREmTiAqA&feature=related
And here, a longer video, Titled "Nano, the next dimension"
http://www.youtube.com/watch?v=eCpkq_AeX50&NR=1&feature=fvwp
And here, videos from Johns Hopkins:
http://inbt.jhu.edu/education/animation-studio
I continue to be amazed not only with the rapid advances that we are making in our understanding of nanoscale phenomena but also with our ability to communicate that understanding, as with these videos.
Thursday, March 25, 2010
Monday, March 15, 2010
What Would You Say?
After a yearlong hiatus, I thought it was about time that I got back on the nano-horse and giddy-yupped into some new thoughts and understandings regarding that tiny little thing we call “nanotechnology.”
As previous readers understand, when I say “nanotechnology” I mean all nanoscale technologies, of which there are thousands today and millions on the technological horizon.
In late 2009, I presented several thought-leaders with the same question that I had asked in years past. “If you had the attention of the entire world, what would you say about nanoscale technologies?”
The answers that I received bring us a step closer to realizing that there continues to be an urgent need for society to pay attention to the mind-boggling rapid growth in our understanding and implementation of nanoscale technologies. Let me put it another way: We are learning more about (and more really important stuff about) why things are different at the nanoscale.
There are maybe a few hundred individuals who understand advanced technologies and can articulate their impact as well as these contributors. (Full disclosure: these folks are long-time, long distance, global-connectivity friends and associates. I seriously respect their individual and collective understanding of and opinions regarding advanced technologies. Mike Treder, Robert A. Freitas Jr. , Neil Gordon, Jack Uldrich and Vic Peña are just some of the world-class minds who you should spend a small part of your time listening to, if you do not do so already.)
From the Futurist
From the futurist we learn that nanoscale technologies are simply another set of new technologies that we need to understand and prepare for. How important are they? They are important on the order of: today and every day that follows, we will be introduced to another of thousands of new products that owe their technological and market leadership to “nanotechnology.” Today and every day that follows we will be confronted by decisions regarding whether or not to allow a nanotech-enabled product into the market; whether or not to pull an existing product from the market because it is simply connected to “nanotech” (or is in fact faulty in some way, thereby tarnishing with the same brush every other nano-enable product). As sure as the day after today is tomorrow, nanotech-enabled products will create a huge stir within society. How well we adapt to those products depends on how much we pay attention, today.
From the Medical Scientist
From the medical scientist we learn that “Medical nanorobotics holds the greatest promise for curing disease and extending the human healthspan.” Cool! Count me in! Nanotech-enabled machines roving around in my body, repairing cellular damage, detecting disease and malfunction, and generally keeping me a fit old son, yeah, count me in. Make me smarter you say?! COUNT ME IN!
From the economists/business men
And from the economists/business men we learn that critically important dollars are not being spent on nanoscale technologies, but are instead being squandered on “business as usual” and politics. Why, oh why, do we sit ineffectively by and watch as our leaders, of both parties, waste our dollars and squander both our future and our grandchildren’s heritage?
We also learn to have a sense of excitement regarding the short- and long-term potential of nanoscale technologies (in spite of our leader’s ineptitude, short-term-gains mindset and back-room dealings).
No one pretends that democracy is perfect or all-wise. Indeed, it has been said that democracy is the worst form of government except all those other forms that have been tried from time to time. -- Winston Churchill, November 1947
What can we learn from this? Depends on who you are. Average citizens may feel a bit overwhelmed by the exceeding complexity of the science, the enormous potential for societal change, and/or the continued nonsensical meddling in the markets by our elected officials. Scientists, economists, innovators, inventors, investors, and savvy business folk know without a doubt that nano-enabled technologies, followed by the inevitable advanced products, will create massive shock-waves in each of their respective areas. By the way, that means if you can answer “Yes” to “Do you live on Planet Earth?” then count on the fact that the future is going to present us with an increasingly complex and exuberantly abundant supply of new technologies that will change our lifestyles and force us sit up and pay attention.
Of course, that is just my take; the futurist, the medical scientist, and the economists/business men may hit you from a totally divergent p-o-v, and yet I bet we all agree that “May you live in interesting times” never meant as much as it does right here, right now (are you paying attention yet?)
Rocky Rawstern, March 15, 2010
Here are their answers
Mike Treder – Our Future Depends on Us / Technology is Only a Tool
Every technology—no matter how powerful—is never a solution in itself. It is only a tool, to be used by its owners for good or for ill. This is as true for nanotechnology as it was for electricity or for the printing press before it.
We should never fall into the trap of looking for or expecting our technologies to save us. Emerging technologies—whether nanotech or AI or synthetic biology do not emerge into nor from a vacuum. They are always developed within a context of political reality, amidst the daily tussle over regulation, funding, and proper usage. They do not arise fully-grown and pristine, but are hammered out, molded, shaped, and modified through endless discussions in corporate boardrooms and the halls of government.
Thus, the color of our future depends much more on us—that is, on our political practices and choices—than on our technologies.
(c) 2010 Mike Treder
Mike Treder is the managing director of the Institute for Ethics and Emerging Technologies, is a prolific writer, speaker, and activist with a background in media and communications. He has published dozens of articles and papers and been interviewed numerous times by the media. As an accomplished presenter on the societal implications of emerging technologies, Mr. Treder has addressed conferences and groups around the world, including in the U.S., Canada, Great Britain, Spain, Germany, Italy, Switzerland, Australia, New Zealand, and Brazil.
Treder co-founded the Center for Responsible Nanotechnology (CRN) in 2002 and served as its executive director for six years. CRN promotes public awareness and education about the implications of molecular manufacturing, with the aim of creating and implementing wise, comprehensive, and balanced plans for global management of the technology. Treder currently sits on the Board of Advisors for CRN.
In addition to his work with the IEET, Mike Treder is a consultant to the Millennium Project of the American Council for the United Nations University, serves on the Scientific Advisory Board for the Lifeboat Foundation, is a member of the New York Academy of Sciences, a consultant to the Future Technologies Advisory Group, and a member of the World Future Society.
Visit ieet.org/index.php/IEET/bio/treder/
Robert A. Freitas Jr. – Molecular Manufacturing and Medical Nanorobotics
The ultimate tool of nanomedicine is the medical nanorobot – a robot the size of a bacterium, composed of molecule-size parts somewhat resembling macroscale gears, bearings, and ratchets. Like a regular robot, a nanorobot may be made of many thousands of mechanical parts, such as bearings and gears, composed of strong diamond-like material. A nanorobot will have motors to make things move, and perhaps manipulator arms or mechanical legs for mobility. It will have a power supply for energy, sensors to guide its actions, and an onboard computer to control its behavior. Medical nanorobotics holds the greatest promise for curing disease and extending the human healthspan.
To build medical nanorobots, we need to create a new technology called molecular manufacturing. Molecular manufacturing is the production of complex atomically precise structures using positionally controlled fabrication and assembly of nanoparts inside a nanofactory. We’ve published the first description of a complete set of tools and positionally controlled reactions that should enable building small bits of perfect diamond crystal, based on extensive analysis and quantum chemistry simulations of a large number of potential tooltips and reaction sequences.
Ralph Merkle and I founded the Nanofactory Collaboration to coordinate a combined experimental and theoretical R&D program to design and build the first working diamondoid nanofactory. This long-term effort is developing the initial technology of positionally controlled mechanosynthesis of diamondoid structures using engineered tooltips and simple molecular feedstock. One of our international colleagues is undertaking direct experiments to build and validate several of our proposed mechanosynthesis tooltips.
(c) 2010 Robert A. Freitas Jr.
Robert A. Freitas Jr., J.D., published the first detailed technical design study of a medical nanorobot ever published in a peer-reviewed mainstream biomedical journal and is the author of Nanomedicine, the first book-length technical discussion of the medical applications of nanotechnology and medical nanorobotics. Volume I was published in October 1999 by Landes Bioscience while Freitas was a Research Fellow at the Institute for Molecular Manufacturing (IMM) in Palo Alto, California. Freitas published Volume IIA in October 2003 with Landes Bioscience while serving as a Research Scientist at Zyvex Corp., a nanotechnology company headquartered in Richardson, Texas during 2000-2004. Freitas is now completing Nanomedicine Volumes IIB and III and is also consulting on diamond mechanosynthesis, molecular assembler design, and nanofactory implementation as Senior Research Fellow at IMM. He won the 2009 Feynman Prize in nanotechnology for theory, the 2007 Foresight Prize in Communication, and the 2006 Guardian Award from Lifeboat Foundation.
Visit www.rfreitas.com
Neil Gordon – 2009 was a bad year for nanotechnology
The financial demise of long established nanotechnology companies such as Nanogen, Evident Technologies, Luna Innovations, and NanoDynamics may be an expected fall-out of the economic downturn. However, the real impact of the financial crisis to nanotechnology is more pronounced.
Technology ventures need funding to develop and commercialize new products. Greater investments are required for advanced offerings employing nanotechnology because of the long time horizon for adopting nanotech into end user products or processes. Not only do nano-enabled products offer the potential for better, faster, cheaper and more environmentally-friendly applications, they also bring high tech R&D and manufacturing jobs that will be in demand for decades to come. So with unprecedented government stimulus spending one might expect a boom time for nanotech companies on the cusp of commercialization.
However, what we are seeing is completely different. Money is being used:
- to reward financiers for bad investment decisions instead of infusing capital to early stage ventures and Series A venture capitalists.
- to create government programs that will increase the cost of health care instead of new technologies for lowering the cost of health care.
- for preventing the spread of a flu strain that killed less than 10% of the infected people from a typical seasonal flu rather than funding new technologies for treating more virulent diseases
- for deploying under-effective counter-terrorism activities instead of new surveillance technologies for the early detection of explosives, illegal drugs, infected people, toxic food, and contaminated water
- to finance bankrupt automobile companies to manufacture the same cars that caused the bankruptcies rather than funding disruptive production and performance innovations that will be competitive against low cost cars from China and India.
- for middlemen to manage and extract fees from carbon cap-and-trade schemes rather acquiring prototypes employing breakthrough energy technologies
So where does nanotechnology stand at the end of 2009? Apparently at the bottom of the 2009 priority list. 2010 appears to be an equally disappointing year.
(c) 2010 Neil Gordon
Neil is the CEO of Early Warning, a NASA spin-off company and co-inventor of the world’s first inline diagnostic nano-biosensor that automatically detects pathogenic bacteria, viruses and parasites in water in under 3 hours. He was previously the President of the Canadian NanoBusiness Alliance, and head of a nanotechnology consulting practice at Sygertech where he was involved in over 20 nanotechnology projects over the last 10 years.
Visit http://www.earlywarninginc.com/
and
nanoscale-materials-and-nanotechnolog.blogspot.com/2009/01/neil-gordon-goes-to-market.html
Jack Uldrich – The impact of nanotechnology is going to be huge
To those who don't believe nanotechnology will change the world in the near future just because it hasn't accomplished much in the last 20 years, consider this little quiz: If a single lily pad began doubling on a pond on the first day of June and doubled each day thereafter until the entire pond was covered by the end of the month, on Day 20 what percentage of the pond would be covered with lily pads?
The answer is one-tenth of one percent. That's right, .1%! What happens over the next 10 days is a little short of amazing -- the entire pond gets covered. Such is the nature of exponential growth.
Now, advances in nanotechnology aren't quite experiencing exponential growth but they are close and over the course of the next decade nanotechnology's impact on material sciences, medicine, and energy are -- like the lily pads' spread over pond in the last few days -- going to be extraordinary."
(c) 2010 Jack Uldrich
jumpthecurve.net
unlearning101.com
Follow Jack at http://twitter.com/jumpthecurve
Vic Peña – The future is here and achievable!
About five years ago, I responded to a similar question. Like this. At that time I was firmly convinced that we had reached an historic milestone in the evolution of science, namely the foundation for the research and development of nanoscale technologies. I still have this conviction. In fact, I am more enthusiastic of the possibilities open to the human experience through nanoscale technologies. “The future is here and achievable.”
The future is here. We are achieving it (especially during the last decade) by accelerating, building, and evolving the principles upon which nanoscale technologies research and development thrive. We have created myriad nano-applications for development and commercialization not generally known or available in the past. We have brought the future to the present and are progressing towards greater achievement.
At the same time, we can say we are not the yet. Achievement in nanoscale technologies is an evolutionary process integrating all disciplines of science. And, we recognize that nanoscale achievement is critically dependent on education and funding. In the United States, the National Nanotechnology Initiative is at the forefront in promoting these. Admittedly, these are subject to the vagaries of societal and economic factors, but consider the advances made in nanoscale technologies.
Imagine what is achievable in our now and present future.
So, what do I say about nanoscale technologies? The future is here and achievable!
(c) 2010 Vic Peña
Co-Founder, nanoTITAN, Inc. (now shuttered)
Former Member, President’s Council of Advisers in Science and Technology (PCAST), Nanotechnology Technical Advisory Group (NTAG)
Former Chairman, Nanotechnology Committee, Northern Virginia Technology Council
Former Member Nanotechnology Advisory Committee, The Virginia House of Delegates
Founding Member Initiative for Nanotechnology in Virginia
In closing
I would like to close with the response from Ray Kurzweil from the previous Q&A. Why am I closing with this quote? Because it best illustrates the immediacy of the need for us to start paying attention (with graphs and charts and things that even I can understand!). (1)
When we have full molecular manufacturing, we will be able to create any physical products we need from information files just as we can create music, movies, and books from pure information today. In about twenty years, the original goals of communism ("from each according to their ability, to each according to their needs") will be achieved not through forced collectivism but through the information technologies of nanotechnology and artificial intelligence.
When will we have full molecular manufacturing? About 10 years after people stop laughing about the difficulty of building the first nanofactory. Let me put it another way: sometime within the next 15 years, possibly a lot sooner. Does that give us enough time to prepare? Certainly, but only if we start now.
May you live in interesting times!
Rocky Rawstern
(1) http://www.kurzweilai.net/articles/art0134.html?printable=1
From the previous Q & A:
http://nanoscale-materials-and-nanotechnolog.blogspot.com/2006/12/nanotechnology-q-pt-i.html
http://nanoscale-materials-and-nanotechnolog.blogspot.com/2006/12/nanotechnology-q-pt-i-more.html
http://nanoscale-materials-and-nanotechnolog.blogspot.com/2006/12/nanoscale-materials-q-pt-i.html
http://nanoscale-materials-and-nanotechnolog.blogspot.com/2006/12/nanotechnology-q-pt-i-more_21.html
As previous readers understand, when I say “nanotechnology” I mean all nanoscale technologies, of which there are thousands today and millions on the technological horizon.
In late 2009, I presented several thought-leaders with the same question that I had asked in years past. “If you had the attention of the entire world, what would you say about nanoscale technologies?”
The answers that I received bring us a step closer to realizing that there continues to be an urgent need for society to pay attention to the mind-boggling rapid growth in our understanding and implementation of nanoscale technologies. Let me put it another way: We are learning more about (and more really important stuff about) why things are different at the nanoscale.
There are maybe a few hundred individuals who understand advanced technologies and can articulate their impact as well as these contributors. (Full disclosure: these folks are long-time, long distance, global-connectivity friends and associates. I seriously respect their individual and collective understanding of and opinions regarding advanced technologies. Mike Treder, Robert A. Freitas Jr. , Neil Gordon, Jack Uldrich and Vic Peña are just some of the world-class minds who you should spend a small part of your time listening to, if you do not do so already.)
From the Futurist
From the futurist we learn that nanoscale technologies are simply another set of new technologies that we need to understand and prepare for. How important are they? They are important on the order of: today and every day that follows, we will be introduced to another of thousands of new products that owe their technological and market leadership to “nanotechnology.” Today and every day that follows we will be confronted by decisions regarding whether or not to allow a nanotech-enabled product into the market; whether or not to pull an existing product from the market because it is simply connected to “nanotech” (or is in fact faulty in some way, thereby tarnishing with the same brush every other nano-enable product). As sure as the day after today is tomorrow, nanotech-enabled products will create a huge stir within society. How well we adapt to those products depends on how much we pay attention, today.
From the Medical Scientist
From the medical scientist we learn that “Medical nanorobotics holds the greatest promise for curing disease and extending the human healthspan.” Cool! Count me in! Nanotech-enabled machines roving around in my body, repairing cellular damage, detecting disease and malfunction, and generally keeping me a fit old son, yeah, count me in. Make me smarter you say?! COUNT ME IN!
From the economists/business men
And from the economists/business men we learn that critically important dollars are not being spent on nanoscale technologies, but are instead being squandered on “business as usual” and politics. Why, oh why, do we sit ineffectively by and watch as our leaders, of both parties, waste our dollars and squander both our future and our grandchildren’s heritage?
We also learn to have a sense of excitement regarding the short- and long-term potential of nanoscale technologies (in spite of our leader’s ineptitude, short-term-gains mindset and back-room dealings).
No one pretends that democracy is perfect or all-wise. Indeed, it has been said that democracy is the worst form of government except all those other forms that have been tried from time to time. -- Winston Churchill, November 1947
What can we learn from this? Depends on who you are. Average citizens may feel a bit overwhelmed by the exceeding complexity of the science, the enormous potential for societal change, and/or the continued nonsensical meddling in the markets by our elected officials. Scientists, economists, innovators, inventors, investors, and savvy business folk know without a doubt that nano-enabled technologies, followed by the inevitable advanced products, will create massive shock-waves in each of their respective areas. By the way, that means if you can answer “Yes” to “Do you live on Planet Earth?” then count on the fact that the future is going to present us with an increasingly complex and exuberantly abundant supply of new technologies that will change our lifestyles and force us sit up and pay attention.
Of course, that is just my take; the futurist, the medical scientist, and the economists/business men may hit you from a totally divergent p-o-v, and yet I bet we all agree that “May you live in interesting times” never meant as much as it does right here, right now (are you paying attention yet?)
Rocky Rawstern, March 15, 2010
Here are their answers
Mike Treder – Our Future Depends on Us / Technology is Only a Tool
Every technology—no matter how powerful—is never a solution in itself. It is only a tool, to be used by its owners for good or for ill. This is as true for nanotechnology as it was for electricity or for the printing press before it.
We should never fall into the trap of looking for or expecting our technologies to save us. Emerging technologies—whether nanotech or AI or synthetic biology do not emerge into nor from a vacuum. They are always developed within a context of political reality, amidst the daily tussle over regulation, funding, and proper usage. They do not arise fully-grown and pristine, but are hammered out, molded, shaped, and modified through endless discussions in corporate boardrooms and the halls of government.
Thus, the color of our future depends much more on us—that is, on our political practices and choices—than on our technologies.
(c) 2010 Mike Treder
Mike Treder is the managing director of the Institute for Ethics and Emerging Technologies, is a prolific writer, speaker, and activist with a background in media and communications. He has published dozens of articles and papers and been interviewed numerous times by the media. As an accomplished presenter on the societal implications of emerging technologies, Mr. Treder has addressed conferences and groups around the world, including in the U.S., Canada, Great Britain, Spain, Germany, Italy, Switzerland, Australia, New Zealand, and Brazil.
Treder co-founded the Center for Responsible Nanotechnology (CRN) in 2002 and served as its executive director for six years. CRN promotes public awareness and education about the implications of molecular manufacturing, with the aim of creating and implementing wise, comprehensive, and balanced plans for global management of the technology. Treder currently sits on the Board of Advisors for CRN.
In addition to his work with the IEET, Mike Treder is a consultant to the Millennium Project of the American Council for the United Nations University, serves on the Scientific Advisory Board for the Lifeboat Foundation, is a member of the New York Academy of Sciences, a consultant to the Future Technologies Advisory Group, and a member of the World Future Society.
Visit ieet.org/index.php/IEET/bio/treder/
Robert A. Freitas Jr. – Molecular Manufacturing and Medical Nanorobotics
The ultimate tool of nanomedicine is the medical nanorobot – a robot the size of a bacterium, composed of molecule-size parts somewhat resembling macroscale gears, bearings, and ratchets. Like a regular robot, a nanorobot may be made of many thousands of mechanical parts, such as bearings and gears, composed of strong diamond-like material. A nanorobot will have motors to make things move, and perhaps manipulator arms or mechanical legs for mobility. It will have a power supply for energy, sensors to guide its actions, and an onboard computer to control its behavior. Medical nanorobotics holds the greatest promise for curing disease and extending the human healthspan.
To build medical nanorobots, we need to create a new technology called molecular manufacturing. Molecular manufacturing is the production of complex atomically precise structures using positionally controlled fabrication and assembly of nanoparts inside a nanofactory. We’ve published the first description of a complete set of tools and positionally controlled reactions that should enable building small bits of perfect diamond crystal, based on extensive analysis and quantum chemistry simulations of a large number of potential tooltips and reaction sequences.
Ralph Merkle and I founded the Nanofactory Collaboration to coordinate a combined experimental and theoretical R&D program to design and build the first working diamondoid nanofactory. This long-term effort is developing the initial technology of positionally controlled mechanosynthesis of diamondoid structures using engineered tooltips and simple molecular feedstock. One of our international colleagues is undertaking direct experiments to build and validate several of our proposed mechanosynthesis tooltips.
(c) 2010 Robert A. Freitas Jr.
Robert A. Freitas Jr., J.D., published the first detailed technical design study of a medical nanorobot ever published in a peer-reviewed mainstream biomedical journal and is the author of Nanomedicine, the first book-length technical discussion of the medical applications of nanotechnology and medical nanorobotics. Volume I was published in October 1999 by Landes Bioscience while Freitas was a Research Fellow at the Institute for Molecular Manufacturing (IMM) in Palo Alto, California. Freitas published Volume IIA in October 2003 with Landes Bioscience while serving as a Research Scientist at Zyvex Corp., a nanotechnology company headquartered in Richardson, Texas during 2000-2004. Freitas is now completing Nanomedicine Volumes IIB and III and is also consulting on diamond mechanosynthesis, molecular assembler design, and nanofactory implementation as Senior Research Fellow at IMM. He won the 2009 Feynman Prize in nanotechnology for theory, the 2007 Foresight Prize in Communication, and the 2006 Guardian Award from Lifeboat Foundation.
Visit www.rfreitas.com
Neil Gordon – 2009 was a bad year for nanotechnology
The financial demise of long established nanotechnology companies such as Nanogen, Evident Technologies, Luna Innovations, and NanoDynamics may be an expected fall-out of the economic downturn. However, the real impact of the financial crisis to nanotechnology is more pronounced.
Technology ventures need funding to develop and commercialize new products. Greater investments are required for advanced offerings employing nanotechnology because of the long time horizon for adopting nanotech into end user products or processes. Not only do nano-enabled products offer the potential for better, faster, cheaper and more environmentally-friendly applications, they also bring high tech R&D and manufacturing jobs that will be in demand for decades to come. So with unprecedented government stimulus spending one might expect a boom time for nanotech companies on the cusp of commercialization.
However, what we are seeing is completely different. Money is being used:
- to reward financiers for bad investment decisions instead of infusing capital to early stage ventures and Series A venture capitalists.
- to create government programs that will increase the cost of health care instead of new technologies for lowering the cost of health care.
- for preventing the spread of a flu strain that killed less than 10% of the infected people from a typical seasonal flu rather than funding new technologies for treating more virulent diseases
- for deploying under-effective counter-terrorism activities instead of new surveillance technologies for the early detection of explosives, illegal drugs, infected people, toxic food, and contaminated water
- to finance bankrupt automobile companies to manufacture the same cars that caused the bankruptcies rather than funding disruptive production and performance innovations that will be competitive against low cost cars from China and India.
- for middlemen to manage and extract fees from carbon cap-and-trade schemes rather acquiring prototypes employing breakthrough energy technologies
So where does nanotechnology stand at the end of 2009? Apparently at the bottom of the 2009 priority list. 2010 appears to be an equally disappointing year.
(c) 2010 Neil Gordon
Neil is the CEO of Early Warning, a NASA spin-off company and co-inventor of the world’s first inline diagnostic nano-biosensor that automatically detects pathogenic bacteria, viruses and parasites in water in under 3 hours. He was previously the President of the Canadian NanoBusiness Alliance, and head of a nanotechnology consulting practice at Sygertech where he was involved in over 20 nanotechnology projects over the last 10 years.
Visit http://www.earlywarninginc.com/
and
nanoscale-materials-and-nanotechnolog.blogspot.com/2009/01/neil-gordon-goes-to-market.html
Jack Uldrich – The impact of nanotechnology is going to be huge
To those who don't believe nanotechnology will change the world in the near future just because it hasn't accomplished much in the last 20 years, consider this little quiz: If a single lily pad began doubling on a pond on the first day of June and doubled each day thereafter until the entire pond was covered by the end of the month, on Day 20 what percentage of the pond would be covered with lily pads?
The answer is one-tenth of one percent. That's right, .1%! What happens over the next 10 days is a little short of amazing -- the entire pond gets covered. Such is the nature of exponential growth.
Now, advances in nanotechnology aren't quite experiencing exponential growth but they are close and over the course of the next decade nanotechnology's impact on material sciences, medicine, and energy are -- like the lily pads' spread over pond in the last few days -- going to be extraordinary."
(c) 2010 Jack Uldrich
jumpthecurve.net
unlearning101.com
Follow Jack at http://twitter.com/jumpthecurve
Vic Peña – The future is here and achievable!
About five years ago, I responded to a similar question. Like this. At that time I was firmly convinced that we had reached an historic milestone in the evolution of science, namely the foundation for the research and development of nanoscale technologies. I still have this conviction. In fact, I am more enthusiastic of the possibilities open to the human experience through nanoscale technologies. “The future is here and achievable.”
The future is here. We are achieving it (especially during the last decade) by accelerating, building, and evolving the principles upon which nanoscale technologies research and development thrive. We have created myriad nano-applications for development and commercialization not generally known or available in the past. We have brought the future to the present and are progressing towards greater achievement.
At the same time, we can say we are not the yet. Achievement in nanoscale technologies is an evolutionary process integrating all disciplines of science. And, we recognize that nanoscale achievement is critically dependent on education and funding. In the United States, the National Nanotechnology Initiative is at the forefront in promoting these. Admittedly, these are subject to the vagaries of societal and economic factors, but consider the advances made in nanoscale technologies.
Imagine what is achievable in our now and present future.
So, what do I say about nanoscale technologies? The future is here and achievable!
(c) 2010 Vic Peña
Co-Founder, nanoTITAN, Inc. (now shuttered)
Former Member, President’s Council of Advisers in Science and Technology (PCAST), Nanotechnology Technical Advisory Group (NTAG)
Former Chairman, Nanotechnology Committee, Northern Virginia Technology Council
Former Member Nanotechnology Advisory Committee, The Virginia House of Delegates
Founding Member Initiative for Nanotechnology in Virginia
In closing
I would like to close with the response from Ray Kurzweil from the previous Q&A. Why am I closing with this quote? Because it best illustrates the immediacy of the need for us to start paying attention (with graphs and charts and things that even I can understand!). (1)
When we have full molecular manufacturing, we will be able to create any physical products we need from information files just as we can create music, movies, and books from pure information today. In about twenty years, the original goals of communism ("from each according to their ability, to each according to their needs") will be achieved not through forced collectivism but through the information technologies of nanotechnology and artificial intelligence.
When will we have full molecular manufacturing? About 10 years after people stop laughing about the difficulty of building the first nanofactory. Let me put it another way: sometime within the next 15 years, possibly a lot sooner. Does that give us enough time to prepare? Certainly, but only if we start now.
May you live in interesting times!
Rocky Rawstern
(1) http://www.kurzweilai.net/articles/art0134.html?printable=1
From the previous Q & A:
http://nanoscale-materials-and-nanotechnolog.blogspot.com/2006/12/nanotechnology-q-pt-i.html
http://nanoscale-materials-and-nanotechnolog.blogspot.com/2006/12/nanotechnology-q-pt-i-more.html
http://nanoscale-materials-and-nanotechnolog.blogspot.com/2006/12/nanoscale-materials-q-pt-i.html
http://nanoscale-materials-and-nanotechnolog.blogspot.com/2006/12/nanotechnology-q-pt-i-more_21.html
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