The most efficient machine is the one who needs to work correctly the least amount of parts. The more the basic design, the less likely there will be problems. A machine designed from the ground up out of atoms would be the highest example of such efficiency. It is for this reason that chemical engineering is one of the most useful boxes great in.
It is the developing field of nanotechnology, which will eventually make the chemical engineer an even more valuable component technology to the future. Nanotechnology has the ability to reach, systems and devices those incredible things with modern methods to create. This done by design devices at the molecular level, on a scale consisting of nanometer Produced “quantum dots” are being developed and implemented in the plastic solar cells that can be produced cheaply, will use an elastic form factor, and with the ability to infrared light. The same issues that have the characteristics of a semiconductor at the molecular level are also in nano-transistors implemented. A computer based, this technology would have made exponential gains in processing power in terms of size, and a significant decline in demand for electricity. Nanotechnology has also come into play in the fields of medicine and alternative fuels. Specially designed molecules could recognize and attack cancer cells without damaging the healthy parts of the body or the immune system. Enzymes compiled with the principles of nanotechnology also helped to break corn stalks in the production of ethanol.
Nanotechnology is a blanket term, and its principles and products for a wide range of areas. However, as with such small quantities and measurements, all of the visible range, design and production are very unconventional to a matter. Chemical engineers will work with the skills in this environment. The desired nanomachines must be composed of specially produced molecules and the principles of molecular recognition. An understanding of the chemical interactions is crucial to this process. The quantum dots used in solar cells, for example, can effectively create chemical processes to nano-crystalline layers are drawn. As the area expands, nano-devices will become more complex and requires a multitude of chemical compounds. These compounds are similar to DNA function that links between the molecules and recognition will allow for a predictable structure, can generate. Chemical engineering will be necessary to create these molecular “factories.”
Both quantum physics and chemistry, and the investigation of bio-chemical systems will be needed, and just as important in the promotion of nanotechnology. It is the chemical engineer, but puts the theories and actually produced these small devices. In addition, is promising with its nearly ubiquitous applications and potentially revolutionary, nanotechnology continue to expand, said the chemical engineer is an important and useful place in almost every area.
Related posts:
0 Responses
Stay in touch with the conversation, subscribe to the RSS feed for comments on this post.