Dr. Alexander Efros Elected Materials Research Society FellowBy Daniel Parry | April 1, 2016
U.S. Naval Research Laboratory (NRL) research physicist, Dr. Alexander Efros, is bestowed the honor of Fellow by the Materials Research Society (MRS), recognizing a record of success in research in the field of optical science materials and technology.
Most notably, Efros is recognized for his pioneering and fundamental contributions to the theory of low dimensional semiconductor structures, which have established the basic theoretical concepts that today are used by everyone for describing the electronic and optical properties of nanocrystal quantum dots, nanowires and nanoplatelets. These concepts are also commonly used in the development of novel nanocrystal-based optical devices, which are smaller, cheaper, more efficient, and consume less energy than the traditional devices.Dr. Alexander “Sasha” Efros of the U.S. Naval Research Laboratory (NRL) is bestowed the honor of Fellow in the Materials Research Society (MRS) for his pioneering and fundamental contributions to the theory of low dimensional semiconductor structures which have established the basic theoretical concepts that today are used worldwide for describing the electronic and optical properties of nanocrystal quantum dots, nanowires and nanoplatelets. These concepts are also commonly used in the development of nanocrystal-based devices such as lasers, light emitting diodes and photovoltaic cells.
(U.S. Naval Research Laboratory/Jamie Hartman)
Dr. Efros' rooted commitment to materials science theory and his profound knowledge of solid-state physics are notably recognized and respected by the scientific community worldwide, said Dr. Michael Mehl, head, NRL Center for Computational Materials Science. His work has given us the ability to understand and control the behavior of semiconductor nanostructures, leading to new and exciting applications in lasers, light emitting diodes, and photovoltaics.
In the early 1980s Efros and his colleagues, A. I. Ekimov and A. A. Onuschenko, discovered semiconductor nanocrystals while studying doped glasses. They also explained the origin of the size-dependent optical properties of nanocrystals, and established that nanocrystals act as 'artificial atoms' that opened the door to a new class of optical materials.
Like atoms, nanocrystals have discrete optical energy spectra that are tunable over a wide spectral range by varying their size. At the same time these atoms can be manipulated with nanometer precision to form nanocrystal molecules and solids. Nanocrystals also can serve as dopants in nanocrystalline solids. As a result, researchers now have an unlimited number of new atomic elements available to create new materials.Based on size controlled tunable emission spectra and great structural and chemical flexibility, the nanocrystals have potential in the creation of a new class of tunable quantum dot lasers and light emitting diodes that function from the far infrared to deep ultraviolet wavelength ranges. An additional application is the labeling of biological molecules by nanocrystals, which are being developed as ultra-sensitive detectors and sensors for use in neuron and drug transport imaging, and the detection of dangerous chemical agents.
The high optical stability of the nanocrystals allow for higher efficiency in quantum dot displays. In very recent developments of this area, researchers from Samsung Electronics demonstrated in 2012 a full-color quantum-dot display monitor that is brighter than liquid-crystal displays and consumes less than a fifth of the power.
Receiving a Master of Science degree in physical engineering in 1973 and a Ph.D. in physics in 1978, both from the Technical University in Leningrad, USSR, Efros became senior researcher at the Ioffe Institute in Leningrad. From 1990 to 1992 he was senior researcher at the Technical University of Munich and a visiting scientist at Massachusetts Institute of Technology (MIT). In 1993 Efros came to NRL as a consultant and in 1999 become senior researcher in NRL's Materials Science and Technology Division.
Efros has authored and co-authored more than 190 articles in refereed journals and holds two patents. He has given more than 80 invited talks at international meetings and more than 190 at various universities and laboratories. He is co-editor of two books on nanoscale semiconductors and co-organizer of many conferences on this topic and is a Fellow of the American Physical Society. Efros has received five Alan Berman publication awards, an NRL Patent Award (2003), the NRL Sigma Xi Award for Pure Science (2006), the E. F. Gross Medal of the D. S. Rozhdestvensky Optical Society of Russia (2013 with A. I. Ekimov and A. A. Onuschenko) the R.W. Wood Prize of the Optical Society of America (2006, with L. E. Brus and A. I. Ekimov), the Humboldt Research Award for Senior U.S. Scientists (2008), and the Dolores M. Etter Top Navy Scientists and Engineers of the Year Award (2009).