Engineers from the University of Texas have invented the fastest and the smallest nanomotor. This is said to take a huge role in the improvement of medicine.
The main thing that it could do to help advance the urgent care is to prevent cancer cells from being active. This could already be the one tough shot of the public for a cancer-free world. It could also help in the proper distribution of the medicine to the different parts of the body.
The engineers were led by Professor Doonglei Fan. This group was able to come up with a nanomotor that is smaller than a grain of salt by ten times. This can really be efficient since it is expected to fit in a single cell in the body.
Possibly the Fastest in the Field of Medicine
This new nanomotor is also holding the record for the fastest tool in medicine today. For 15 continuous hours, this can rotate to as much as 18,000 rotations per minute. This is a huge difference from the typical motors found in urgent care clinics that can only do 14 to 500 RPMs. This speed is already equivalent to the performance of a full-blown jet.
They have compared this speed to the typical dispersing time of the medicines today, too. With such speed, they found out that they will be working with medicines that release their effects faster. The entire distribution idea can be pegged to the rotation. The chemicals can reach cells easily with a faster nanomotor.
Nanochemical Devices in the Near Future
For this group of engineers, their nanomotor is a first of its kind. Nanotechnology is still in its early stages in urgent care clinic, but they managed to come up with a huge leap out of it. They are already planning the next steps to make sure that this project does not go to waste.
They have been testing on non-biological set-ups on urgent care near me. However, they are planning to move a step further by introducing it to living organisms. It will not be long until they come up with a much enhance mechanical nanotechnology, as well.
According to the professor, nanoeletromechanical devices are their end goal in this study. It is still a long way to go but it will not be impossible.
This nanomotor could definitely change the face of how we view medicine today. The only question now is whether it will be accessible to developing countries or not. Granted that there will be delays but how long?