Substituting atoms in the process of making two-dimensional alloys not only allows them to be customized for applications but also can make them magnetic, according to Rice University scientists and their collaborators.
A new paper in Advanced Materials outlines how researchers at Rice, Oak Ridge National Laboratory, the University of Southern California (USC) and Kumamoto University in Japan used chemical vapor deposition (CVD) to make atom-thick sheets and, in the same step, tailor their properties by adding other elements through a process known as doping.
They discovered by surprise that they could also give the 2-D sheets magnetic properties.
The labs worked with transition metal dichalcogenides, alloys that combine a transition metal and chalcogen atoms into a single material. Transition metals are stable elements that fall in the middle of the periodic table. Chalcogens include sulfur, selenium and tellurium, also neighbors to each other in the table.
By adding a dopant element to the mix during CVD, the researchers showed it was possible to rearrange the atoms on the resulting 2-D crystal sheets. They demonstrated several different configurations and found they could replace some atoms outright with the dopant. These physical changes led to changes in the mechanical and electronic properties of the flat crystals, said co-author and Rice postdoctoral researcher Chandra Sekhar Tiwary.
The Rice lab of Pulickel Ajayan led the project to test theories by USC researchers who calculated that doping the materials would force a phase transition in the 2-D crystals. The Rice team confirmed the theory that adding rhenium in various amounts to molybdenum diselenide during growth would allow them to tailor its properties by changing its atomic structure. The magnetic signatures were a bonus.
"Usually, when you make a magnetic material, you start with magnetic elements like iron or cobalt," said graduate student and co-lead author Amey Apte. "Rhenium, in bulk, is not a magnetic material, but it turns out it is in certain combinations at the atomic scale. It worked fantastically in this case."
The researchers said the magnetic properties they discovered could make the 2-D alloys of interest to those who design spintronic devices.
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Former Rice postdoctoral researcher Vidya Kochat is co-lead author of the paper. Co-authors are Rice graduate student Sandhya Susarla; postdoctoral researcher Jordan Hachtel and staff scientist Juan Carlos Idrobo of Oak Ridge; graduate student Hiroyuki Kumazoe of the University of Southern California and Kumamoto University; postdoctoral researcher Aravind Krishnamoorthy and professors Priya Vashishta, Rajiv Kalia and Aiichiro Nakano of the University of Southern California; and Fuyuki Shimojo of Kumamoto University. Ajayan is chair of Rice's Department of Materials Science and NanoEngineering, the Benjamin M. and Mary Greenwood Anderson Professor in Engineering and a professor of chemistry.
The Computational Materials Science Program funded by the U.S. Department of Energy, Office of Science, Basic Energy Sciences, supported the research.
Read the abstract at http://onlinelibrary.wiley.com/doi/10.1002/adma.201703754/full
This news release can be found online at http://news.rice.edu/2017/10/10/rice-u-lab-surprised-by-ultraflat-magnets/
Follow Rice News and Media Relations via Twitter @RiceUNews
Related materials:
Ajayan Research Group: http://ajayan.rice.edu
Rice Department of Materials Science and NanoEngineering: https://msne.rice.edu
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Journal
Advanced Materials