Nanotechnology will let us build computers that are incredibly powerful. We'll have more power in the volume of a sugar cube than exists in the entire world today.
Nanotechnology will let us build computers that are incredibly powerful. We'll have more power in the volume of a sugar cube than exists in the entire world today.
We believe that nanotechnology will have a transformative effect on cancer diagnosis and treatment. In fact, its impact is already visible in the research being conducted through many of the centers we are announcing today. Through the applications of nanotechnology, we will increase the rate of progress towards eliminating the suffering and death due to cancer.
Our approach to materials chemistry is to use sophisticated design principles and reaction chemistry to prepare new types of successful matter, ... Our goal is to control the shapes of new materials with the same level of precision that we exercise when controlling the stereo chemical relationships in a natural products synthesis. The precise molecular engineering of materials (nanotechnology) is a quintessential component in the emergence of PSI-TEC's high-tech product line.
Nanotechnology will eventually apply to all cancers. However, this grant is focusing on breast and prostate cancers because they represent a number of compelling challenges and opportunities in cancer research, ... These cancers are among the most common cancers and have high mortality rates, yet there is evidence that with targeted therapies for these types of cancer we can improve survival in Georgia and in the nation.
I propose to double the federal commitment to the most critical research programs in the physical sciences. This funding will support the work of America's most creative minds as they explore promising areas such as nanotechnology, supercomputing and alternative energy sources.
Protein engineering is a technology of molecular machines - of molecular machines that are part of replicators - and so it comes from an area that already raises some of the issues that nanotechnology will raise.
Nanotechnology is manufacturing with atoms.
They're one of the most impressive nanotechnology startups we've ever met up with, ... They've aimed for good, high value, low volume applications where they can charge a very, very large premium, as a way to get manufacturing volumes to a point to attack other opportunities. They've generally taken a very smart and informed approach.
I think dry nanotechnology is probably a dead-end.
We're very optimistic that nanotechnology can markedly improve cancer therapy.
Nanotechnology's potential is vast and it's real. The opportunity for nanotechnology ranges from improving Olympic sports equipment to discovering better treatments for Alzheimer's disease. But our ability to reap the long-term benefits of nanotechnology -- in areas from energy production to medicine -- will depend on how well industry and government manage the safety and performance of this first generation of products.
Nanotechnology is an idea that most people simply didn't believe.
In thinking about nanotechnology today, what's most important is understanding where it leads, what nanotechnology will look like after we reach the assembler breakthrough.
Likewise nanotechnology will, once it gets under way, depend on the tools we have then and our ability to use them, and not on the steps that got us there.
If we can reduce the cost and improve the quality of medical technology through advances in nanotechnology, we can more widely address the medical conditions that are prevalent and reduce the level of human suffering.
In my view, this was a singular event in the history of nanotechnology, ... It not only created a whole new field of 'fullerene chemistry,' it immediately made feasible the notion of making things from the bottom up, just as physicist Richard Feynman had predicted 50 years earlier.
© 2020 Inspirational Stories
© 2020 Inspirational Stories