Nature every day shows that it is complex and effective. Organic chemists envy it because their routine tools limit their achievements. Thanks to the research team of Stefan Matile, a professor at the University of Geneva in Switzerland, these restrictions may become a thing of the past. The results of the relevant research published in the journal Nature Chemistry did indeed provide chemists with a new type of password, allowing them to gain a new level of complexity.
For Stefan Matile, if organic chemistry often likes to simplify nature's functional systems, then this is because it is mostly impossible for people to build and manage the complex molecular structures that nature produces efficiently. He said, "In fact, we are far from being able to match the genius of nature."
Where complexity arises
Experts attribute the genetic code to the genius of nature. "It is actually very simple, because it is based on 4 basic elements-adenine, cytosine, guanine and thymine (A, C, G and T). The DNA double helix is ​​also quite simple The complexity is mainly due to the multi-stage transfer of this information by the cell. "
Stefan Matile has long believed that a code also exists in organic chemistry and must be discovered. In the help of his colleague Edvinas Orentas, he believes that he successfully discovered this code.
Stefan Matile continued, "I must admit that this research is very complicated, basic and theoretical. But I also think it is very innovative, especially if we can perform it on the practical level. . "
Lay the foundation
In fact, precisely because of him, organic chemists may be able to stop the time-consuming and laborious construction of their functional systems atom by atom and chemical bond. This code will allow them to draw a two-dimensional map, and it is also a relatively simple problem that can be solved. They then copied this two-dimensional predetermined information-there is sufficient evidence to confirm that the reliability of this transcription is 97%, very close to perfect-to build a complex three-dimensional system. This is a powerful approach to the complexity of nature.
From now on, the Stefan Matile research team will try to put this code into practice in order to produce surface materials similar to the substances used to make organic solar cells, where the organic solar cells simulate the processes that function during photosynthesis. Stefan Matile said, "So far, we don't know if it works as we actually expected, but this attempt is expected to be exciting."
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