2-D material has space vehicle applications

March 15, 2019 by Jessica Fagan, Australian National University
Mr Tobias Vogl. Credit: Lannon Harley, ANU

A new study from The Australian National University (ANU) has found a number of 2-D materials can not only withstand being sent into space, but potentially thrive in the harsh conditions.

It could influence the type of materials used to build everything from satellite electronics to and batteries—making more accessible, and cheaper to launch.

Ph.D. candidate and lead author Tobias Vogl was particularly interested in whether the 2-D materials could withstand intense .

"The is obviously very different to what we have here on Earth. So we exposed a variety of 2-D materials to radiation levels comparable to what we expect in space," Mr Vogl said.

"We found most of these devices coped really well. We were looking at electrical and optical properties and basically didn't see much difference at all."

During a satellite's orbit around the earth, it is subject to heating, cooling, and radiation. While there's been plenty of work done demonstrating the robustness of 2-D materials when it comes to temperature fluctuations, the impact of radiation has largely been unknown—until now.

The ANU team carried out a number of simulations to model space environments for potential orbits. This was used to expose 2-D materials to the expected radiation levels. They found one material actually improved when subjected to intense gamma radiation.

"A material getting stronger after irradiation with gamma rays—it reminds me of the hulk," Mr Vogl said.

"We're talking about radiation levels above what we would see in space—but we actually saw the material become better, or brighter."

Mr Vogl says this specific material could potentially be used to detect in other harsh environments, like near nuclear reactor sites.

"The applications of these 2-D will be quite versatile, from satellite structures reinforced with graphene—which is five-times stiffer than steel—to lighter and more efficient solar cells, which will help when it comes to actually getting the experiment into space."

Among the tested devices were atomically thin transistors. Transistors are a crucial component for every electronic circuit. The study also tested quantum light sources, which could be used to form what Mr Vogl describes as the "backbone" of the future quantum internet.

"They could be used for satellite-based long-distance quantum cryptography networks. This quantum internet would be hacking proof, which is more important than ever in this age of rising cyberattacks and data breaches."

"Australia is already a world leader in the field of quantum technology," senior author Professor Ping Koy Lam said.

"In light of the recent establishment of the Australian Space Agency, and ANU's own Institute for Space, this work shows that we can also compete internationally in using quantum technology to enhance instrumentations."

The research has been published in the journal Nature Communications.

Explore further: New reactor-liner alloy material offers strength, resilience

More information: Tobias Vogl et al. Radiation tolerance of two-dimensional material-based devices for space applications, Nature Communications (2019). DOI: 10.1038/s41467-019-09219-5

Related Stories

Space weather 'piggyback'

December 6, 2018

The first ESA-funded space weather monitoring instrument was launched on 4 December 2018, hitching a ride on South Korea's new geostationary satellite, GEO-KOMPSAT-2A – the Geostationary Korea Multi-Purpose Satellite-2A.

Scientists learn how to predict space radiation levels

December 28, 2018

Experts from the National Research Nuclear University MEPhI (Russia), the University of Oulu (Finland), and the St. Petersburg-based Ioffe Physical-Technical Institute of the Russian Academy of Sciences (Russia) have compared ...

Recommended for you

Physicists discover new class of pentaquarks

March 26, 2019

Tomasz Skwarnicki, professor of physics in the College of Arts and Sciences at Syracuse University, has uncovered new information about a class of particles called pentaquarks. His findings could lead to a new understanding ...

Study finds people who feed birds impact conservation

March 26, 2019

People in many parts of the world feed birds in their backyards, often due to a desire to help wildlife or to connect with nature. In the United States alone, over 57 million households in the feed backyard birds, spending ...

Matter waves and quantum splinters

March 25, 2019

Physicists in the United States, Austria and Brazil have shown that shaking ultracold Bose-Einstein condensates (BECs) can cause them to either divide into uniform segments or shatter into unpredictable splinters, depending ...

0 comments

Please sign in to add a comment. Registration is free, and takes less than a minute. Read more

Click here to reset your password.
Sign in to get notified via email when new comments are made.