An electro-optical detector with the potential to create a revolution in the field of night vision

Researchers from the Faculty of Engineering at Bar-Ilan University created A "pixel" with a high sensitivity to light, consisting of a two-dimensional material *will lead to a considerable reduction in the price of this equipment

From the research of Prof. Doron Neve, the Nanotechnology Institute at Bar Ilan University
From the research of Prof. Doron Neve, the Nanotechnology Institute at Bar Ilan University

In a study carried out in the laboratory of Prof. Doron Neve at the Faculty of Engineering at Bar-Ilan University A "pixel" with an extremely high sensitivity to light, consisting of a two-dimensional material in a unique configuration, was designed and realized. The pixel is suitable as a core component that will yield a considerable reduction in price alongside other advantages in starlight amplifiers, which are the most common night vision systems today. The full article was published in the journal Advanced Materials.

Sheets of certain materials with a thickness of individual atoms ("two-dimensional materials") have unique electro-optical properties that are extremely interesting on the one hand, and suitable for integration in mass serial production processes on the other hand. These parameters make it possible to use the two-dimensional materials as a basis for the next generation of electro-optical detectors, with the intention of producing cheap video cameras from them, which transmit the image of the landscape even in weak lighting conditions or even in complete darkness. Examples of materials from which two-dimensional sheets can be made: graphene (carbon), molybdenum disulfide, black phosphorus and more.

Nano technology. Illustration: depositphotos.com
Nano technology. Illustration: depositphotos.com

Today, cameras designed to see in low light or in the dark are relatively expensive. The most common devices are starlight amplifiers, which are based on amplifying starlight using a dedicated vacuum tube that converts the light hitting the electrons, doubles the amount of electrons, and accelerates them until they hit a phosphorescent screen and from there to the user's eye (a kind of green image of the landscape is obtained). Another type of device is the thermal cameras, which are based on "heat sensing" detectors. Both types of cameras are expensive, so their purchase is limited to research, medical imaging or security needs.

As part of the research, a "pixel" was developed and realized, consisting of a unique structure of several dozen vertical two-dimensional parallel sheets of molybdenum disulfide plus a small amount of copper atoms inserted between the sheets in an innovative process.

Two-dimensional material

Light hitting the two-dimensional sheets is converted into electrons, which are multiplied several tens of thousands of times by the amplification mechanism resulting from the presence of the copper atoms, called and shown as current strength. In this way, the pixel reads the image coming to it from the landscape. As designed, the response of the pixel is in the visible light (VIS) and near infrared (NIR) range.

The response area of ​​the pixel and the high gain inherent in it make it a natural candidate for replacing a core component present in the starlight amplifiers (empty tube). Among the advantages of the pixel compared to the vacuum tubes can be mentioned the transfer of a digital image of the landscape for further processing, the prevention of "burning" of the tube when operating it in daylight, the compactness of the component and its significantly cheap price, which will make the night vision cameras accessible to anyone who needs them.

Link to the full article

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