Nano is a unit of length. In the early years, it has always been a relatively advanced physics research category. With the continuous development of science in recent years, nanotechnology has already entered thousands of households. Specifically, The nanometer is not the smallest unit in the field of length, but at the nanometer level, it can help humans realize many technologies that were previously unattainable. In addition to various materials, in the field of science, nanorobots are the most concerned.
Nanorobots belong to the category of bionics, which is to create a functional molecular machine that can be operated within the nanoscale range. Later it was collectively called nanorobots. In fact, in the late 1990s, this concept had already It was mentioned that at that time, Professor Zhou Haizhong, a famous Chinese scholar, said in the book that after the 21st century, nanorobots will change people's lifestyles. In the blink of an eye, nearly 30 years have passed since the time when he said this sentence. So, has it become more developed? Woolen cloth?
The answer is yes. In fact, China has always been the world leader in the field of nanorobot research. But what is unexpected is that the leader in China’s nanotechnology field is not Chinese. , but a Japanese, he is Toshio Fukuda, who was once known as the "Father of Nanorobotics." It can be said that China's continuous breakthroughs in the field of nanorobotics in recent years are actually due to this Japanese scientist.
Putting aside stereotypes, Toshio Fukuda is actually a world-class scientist, especially on the basis of robot bionics. He has outstanding research and is also the first in the world to apply the concept of bionic robots to microscopic research. A scientist who revolutionized the field and revolutionized the field, he was later elected president of the International Institute of Electrical and Electronics Engineers, and was also the first Asian-American president in the history of the association. In 1995, Toshio Fukuda was invited by China to visit China and conduct exchanges and research on robot bionics and other majors, thus forming an indissoluble bond with China.
For a long time afterwards, Toshio Fukuda has been concentrating on researching nanorobot technology in China, and has also made many changes in China's research projects. First of all, he focused on the operation of nanorobots in the microscopic field. The experimental instruments were improved and the assembly of nanorobots in the surgical field was successfully completed under microscopic manipulation. We must know that human cardiovascular and cerebrovascular diseases have always been an important disease that threatens human health, which is reflected in its suddenness and rapidity. However, with nanorobots, it is only necessary to add nanorobots to the lesion site and perform microscopic surgery on the lesion site. It is possible to treat patients without surgery or pain.
Not only that, Toshio Fukuda has also realized the use of nanorobot technology to create artificial blood vessels, which are more precise than 3D printed artificial blood vessels and are of unprecedented importance in the future medical field. Toshio Fukuda lived in China for 22 years, and was later employed by Beijing Institute of Technology, where he was committed to cultivating the next generation of successors. During this long period of time, Toshio Fukuda trained more than 30 doctors and postdoctoral fellows in professional fields, and Toshio Fukuda hopes to be more successful in these fields. students who can emerge as the next Nobel Prize winner.