Hostname: page-component-586b7cd67f-g8jcs Total loading time: 0 Render date: 2024-11-23T07:47:37.352Z Has data issue: false hasContentIssue false

Robert J. Cava selected as MRS Medalist for work on 3D topological insulators

Published online by Cambridge University Press:  10 October 2016

Abstract

Type
News
Copyright
Copyright © Materials Research Society 2016 

Robert J. Cava, Department of Chemistry, Princeton University, has received the 2016 Materials Research Society (MRS) Medal. He is cited for his “pioneering contributions in the discovery of new classes of 3D topological insulators.” Cava will be recognized during the Award Ceremony at the 2016 MRS Fall Meeting in Boston.

Cava has worked in combining physics and chemistry to create accessible materials that can be widely studied through a process of understanding the physics and how to embody the materials. Although topological surface states were first found on the edges of thin buried layers of HgTe in quantum wells fabricated by molecular beam epitaxy, their discovery soon thereafter on the surfaces of bulk crystals of Sb-doped Bi grown by Cava caused a rise of interest and activity in the field.

Theorists at the University of Pennsylvania had predicted the existence of the exotic states on the surface of crystals of Sb-doped Bi. Once observed, however, the states turned out to be very complex and were therefore not satisfactory for in-depth study. Physicists asked Cava to think of a not-predicted compound that might have better surface states based on what he understood about the materials science of Sb-doped Bi. He proposed, and then grew crystals and proved, with experimental physicist collaborators, that Bi2Se3 would be a better host for topological surface states than Sb-doped Bi. Bi2Se3 is now considered the “hydrogen atom of topological insulators” because it is an excellent prototype for testing ideas and theories in this field.

Cava continued to make contributions to address questions about the physics of topological surface states by translating those questions into materials terms, and then finding new compounds or altering known compounds. Cava has collaborated extensively with physicists to understand the physics they are trying to probe in topological insulators, and through physics-materials feedback, develop model compounds in single-crystal form.

Through interactions with experimental and theoretical physicists, Cava learned of a new kind of topological insulator where surface states are present due to the protective character of the surface symmetry (the so-called “topological crystalline insulators”) and has grown crystals of those compounds that show the existence of the surface states in Pb1–x Sn x Te.

Cava has more than 690 publications and 15 patents. His recognitions include the Linus Pauling Award (ACS), Stephanie Kwolek Award in Materials Chemistry (RSC), James C. McGroddy Prize in New Materials (APS), and the Humboldt Research Award. He is a Fellow of the Neutron Scattering Society of America, The American Ceramic Society, and the American Physical Society. His research emphasizes the relationships between chemistry, crystal structure, and electronic and magnetic properties of non-molecular solids; synthesis, structure, and physical property characterization of new transition-metal oxides, chalcogenides, intermetallics, and pnictides; and the study of the properties and materials chemistry of superconductors, magnetic materials, transparent electronic conductors, dielectrics, thermoelectrics, topological insulators, geometrically frustrated magnets, and correlated electron systems.