Revolutionary Method to Cool Materials Below Zero Using Quantum Technology

Sunday, 7 July 2024, 18:18

This post highlights a groundbreaking 2D quantum cooling system that utilizes indium selenide sheet and graphene electrodes to transform heat energy into electrical voltage, enabling temperatures colder than space. The research team at EFPL LANES has successfully achieved temperatures as low as 100mK with this cutting-edge technology. The innovation paves the way for new possibilities in cooling technologies and energy conversion, showcasing the potential of quantum applications in addressing extreme temperature challenges.
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Revolutionary Method to Cool Materials Below Zero Using Quantum Technology

Revolutionizing Cooling Technologies

This article sheds light on an extraordinary 2D quantum cooling system that has the capability to reach temperatures well below zero by converting heat into electrical energy.

Breakthrough Experiment at EFPL LANES

The research team at EFPL LANES conducted a groundbreaking experiment using an indium selenide sheet combined with graphene electrodes.

  • This setup successfully converted heat into electricity,
  • resulting in temperatures as low as 100mK.

The implications of this discovery are immense, offering new perspectives on cooling and energy conversion applications.


This article was prepared using information from open sources in accordance with the principles of Ethical Policy. The editorial team is not responsible for absolute accuracy, as it relies on data from the sources referenced.


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