πŸ’‘ AI solves difficult problem of how molecules react to light – may lead to better solar cells and LED lights

πŸ’‘ AI solves difficult problem of how molecules react to light – may lead to better solar cells and LED lights

Researchers at DeepMind have used AI to create a new method for calculating how molecules behave when hit by light. The technology could lead to improvements in solar cells, LED lights, and other light-sensitive technologies.

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  • Researchers at DeepMind have used AI to create a new method for calculating how molecules behave when hit by light.
  • The technology could lead to improvements in solar cells, LED lights, and other light-sensitive technologies.
  • This problem has challenged researchers for decades and has been difficult to solve with traditional methods.

A difficult problem meets AI

For decades, researchers have struggled to accurately calculate how molecules behave when hit by light. This problem is central to understanding and improving technologies such as solar cells and LED lights. Traditional calculation methods have often given incomplete or incorrect results.

The problem lies in the fact that molecular behavior is governed by complex quantum mechanical rules. When a molecule is hit by light, it can enter a state of higher energy. Describing this mathematically has proven to be extremely challenging.

AI takes on the challenge

DeepMind began working on this problem in 2020. They created a system called FermiNet, which used AI to calculate how electrons behave in molecules. This was an important first step in tackling the difficult problem.

Now, researchers have built upon this work. The result is a method that can calculate molecular energy states with an accuracy that was previously difficult to achieve.

The new method has shown markedly better results than previous methods. For some molecules, they could calculate the energy with five times higher accuracy than what was previously possible.

The method was tested on different types of molecules, from small atoms to larger molecules like benzene. In all cases, the AI method gave results that aligned much better with the best theoretical calculations than traditional methods could achieve.

DeepMind has made the code for their AI method available to everyone. This means that other researchers can use and improve the method.

Can lead to better solar cells

A major advantage of the AI-based method is its flexibility. Previous methods often required extensive manual adjustments for different types of molecules. The AI system, however, can adapt to different molecules without such adjustments. This makes the method useful for many different types of quantum physical problems.

For solar cells, the improved knowledge can help create materials that capture more light and convert it to electricity more efficiently. For LED lights, the insights can be used to design molecules that produce light with desired color and intensity while using less energy. This increased precision in calculations can thus contribute to creating both more efficient solar cells and more energy-efficient LED lights, which in turn can lead to reduced energy consumption and lower costs for consumers.

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