A group of scientists led by Artem Oganov, Professor at Skoltech and MIPT, and Dr. Ivan Troyan at the Institute of Crystallography of RAS have succeeded in synthesizing thorium decahydride (ThH10), a new superconducting material with a very high critical temperature (161 K). The results of their study supported by a Russian Science Foundation (RSF) grant were published in the journal Materials.

A truly remarkable property of quantum materials, superconductivity is a complete loss of electrical resistance under quite particular, and sometimes, very harsh conditions. Despite the tremendous potential for quantum computers and high-sensitivity detectors, the application of quantum materials is hindered by the fact that superconductivity typically manifests itself at very low temperatures or extremely high pressures. Until recently, the list of superconductors was topped by mercury-containing cuprate that becomes superconducting at 135 K (-138 C).

This year, lanthanum decahydride, LaH10, has set a new record of -13C, which is very close to room temperature, although in the case of LaH10 superconductivity is achieved at nearly 2 million atmospheres, a pressure that can hardly be attained in real life.

It is important to achieve superconductivity at temperatures and pressures close to room levels. In 2018, Alexander Kvashnin, a research scientist at the lab directed by Skoltech and MIPT professor, Artem R. Oganov, predicted a new material, thorium polyhydride (ThH10), with a critical temperature of -32C at THE pressure of 1 million atmospheres.

In their recent study, scientists from the Institute of Crystallography of RAS, Skoltech, MIPT and the Lebedev Institute of Physics of RAS have successfully obtained ThH10 and studied its transport properties and superconductivity. Their findings corroborated the theoretical predictions, proving that ThH10 exists at pressures above 0.85 million atmospheres and displays outstanding high-temperature superconducting performance.

The scientists could only determine the critical temperature at 1.7 million atmospheres and found it to be -112C, which is consistent with the theoretical prediction for this pressure value, placing ThH10 among the record-breaking high-temperature superconductors.

"Modern theory, and in particular, the USPEX method developed by myself and my students, yet again displayed their amazing predictive power. ThH10 pushes the boundaries of classical chemistry and possesses unique properties that were predicted theoretically and recently confirmed by experiment. Most notably, the experimental results obtained by Ivan Troyan's lab are of very high quality," says Artem R. Oganov, co-director of the study and professor at Skoltech and MIPT.

"We discovered that superconductivity predicted in theory does exist at -112C and 1.7 million atmospheres. Given the strong consistency between theory and experiment, it would be interesting to check whether ThH10 will show superconductivity at up to -30-40 C and lower pressures as predicted," says co-director of the study, Dr. Ivan Troyan.

"Thorium hydride is just one of the elements in a large and rapidly growing class of hydride superconductors. I believe that in the coming years, hydride superconductivity will expand beyond the cryogenic range to find application in the design of electronic devices," says the first author of the study and Skoltech PhD student, Dmitry Semenok.

Research paper

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