How Will Nanotechnology Change the World
Nanotechnology involves shrinking down objects so they can perform mechanical, electrical, or chemical processes at a much smaller scale. In the same way this can be done on websites, these small-scale operations can revolutionize our world because there are many problems that can be solved with miniaturization. In fact, there are so many issues and challenges that can be fixed by nanotechnology that we are focusing only on the top 3 areas where nanotechnology can produce a lot of dramatic benefits: computer technology, biotechnology, and health/beauty.
The role of nanotechnology in computers is nothing new. In fact, these two areas of research tend to complement each other where advances in one push advances in the other. For example, nanotechnology research into smaller and smaller transistors helped push computers to reach even greater levels of processing power. This in turn helped drive efforts at better miniaturization of chip designs. This complementary push and pull relationship has resulted in even smaller models for chip-based processing. As of this writing, the next frontier for nanotechnology in the realm of computer sciences is in how to turn molecules into processing units and components. It will probably be a few decades away, but this is a potentially world-changing development. Not only will the computers of the future be able to do more, do things faster, and store more information, they will also be able to move around and transmit information much faster. A truly interactive and personalizedInternet how to turn molecules into processing units with billions of bases of individualized information will no longer be a pipe dream but a reality thanks to nanotechnology. Storing information in chemical molecules is a key step. Machines will also get smaller due to this transition.
The role of nanotechnology in computers is nothing new. In fact, these two areas of research tend to complement each other where advances in one push advances in the other. For example, nanotechnology research into smaller and smaller transistors helped push computers to reach even greater levels of processing power. This in turn helped drive efforts at better miniaturization of chip designs. This complementary push and pull relationship has resulted in even smaller models for chip-based processing. As of this writing, the next frontier for nanotechnology in the realm of computer sciences is in how to turn molecules into processing units and components. It will probably be a few decades away, but this is a potentially world-changing development. Not only will the computers of the future be able to do more, do things faster, and store more information, they will also be able to move around and transmit information much faster. A truly interactive and personalizedInternet how to turn molecules into processing units with billions of bases of individualized information will no longer be a pipe dream but a reality thanks to nanotechnology. Storing information in chemical molecules is a key step. Machines will also get smaller due to this transition.