The new approach makes it possible to create digital twins of nanoparticles that show how real samples would interact with light. Previously such properties could only be determined through expensive laboratory syntheses.
As Andrey Zyubin, head of the mathematical modeling laboratory, explains, the algorithm simplifies the design of nanomaterials for materials science and biophysical problems. There is no longer a need to synthesize dozens of samples of different sizes and shapes to obtain particles with the desired properties.
This development will be useful in creating highly sensitive optical sensors, including systems for diagnosing diseases and monitoring drugs in biological fluids.
Source: Ferra
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