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Four elements make 2-D optical platform

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Credit: Alex Kutana/Rice University

HOUSTON – (Sept. 20, 2017) – Rice University scientists have discovered a two-dimensional alloy with an optical bandgap that can be tuned by the temperature used to grow it.

The Rice lab of materials scientist Pulickel Ajayan grew the four-component alloy of transition metals molybdenum and tungsten with chalcogens sulfur and selenium in a chemical vapor deposition furnace. They found changes in temperature made subtle changes in the way atoms assembled and also altered the properties that determine how they absorb and emit light.

Their experiments were built upon work by the lab of Rice theoretical physicist Boris Yakobson, which created scores of models to predict how various combinations of the four elements should work.

The process should be of interest to engineers looking to make smaller, more-efficient devices. Because the bandgap falls in the optical range of the electromagnetic spectrum, the researchers said solar cells and light-emitting diodes might be the first beneficiaries.

The paper appears as a cover story in the current issue of Advanced Materials.

The team led by co-lead author and Rice research scientist Alex Kutana generated 152 random models of the material that showed the bandgap could be tuned from 1.62 to 1.84 electron volts by varying the growth temperature from 650 and 800 degrees Celsius (1,202 to 1,472 degrees Fahrenheit).

The experimental team led by Sandhya Susarla then made and tested the thermodynamically stable materials in a furnace at 50-degree increments. Scientists at Oak Ridge National Laboratory led by postdoctoral researcher Jordan Hachtel produced microscope images that identified and detailed the position of each atom in the materials.

"Labs have made 2-D materials with two or three components, but we don't believe anyone has tried four," said co-author and Rice postdoctoral researcher Chandra Sekhar Tiwary. "Having four components gives us an additional degree of freedom. With fewer materials, every adjustment you make to change the bandgap turns it into a different material. That's not the case here."

"What we've made should be very useful," added Susarla, a Rice graduate student. "For applications like solar cells and LEDs, you need a material that has a broad bandgap."

Tiwary said the material can be tuned to cover the entire spectrum of visible light, from 400- to 700-nanometer wavelengths. "That's a huge range we can cover by just changing this composition," he said. "If we choose the composition correctly, we can hit the correct bandgap or correct emission point."

"These materials are arguably the most important 2-D semiconductors because of their excellent optoelectronic properties and low cost," Kutana said. "Our high-throughput calculations permitted us to avoid prior assumptions about how the alloy bandgap behaved. The surprising outcome was how regular the bandgap changes were, resulting in optical properties that are both useful and predictable."

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Co-authors of the paper are visiting researcher Vidya Kochat, graduate student Amey Apte and senior fellow Robert Vajtai, all of Rice, and Juan Carlos Idrobo, a staff scientist at Oak Ridge. Yakobson is the Karl F. Hasselmann Professor of Materials Science and NanoEngineering and a professor of chemistry. 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 research was sponsored by the Army Research Office Multidisciplinary University Research Initiative, the Air Force Office of Scientific Research and the Frequency Agile Materials for Electronics program, a center of the Semiconductor Technology Advanced Research Network sponsored by the Microelectronics Advanced Research Corp. and the Defense Advanced Research Projects Agency.

Read the paper at http://onlinelibrary.wiley.com/doi/10.1002/adma.201702457/full

DOI: 10.1002/adma.201702457

This news release can be found online at http://news.rice.edu/2017/09/20/4-elements-make-2-d-optical-platform/

Follow Rice News and Media Relations via Twitter @RiceUNews.

Related materials:

Ajayan Research Group
Yakobson Research Group
Rice Department of Materials Science and NanoEngineering

Images for download:

http://news.rice.edu/files/2017/09/0925_BANDGAP-1-WEB-165geez.jpg

Subtle changes in growth temperature alters the form of a four-component alloy created at Rice University. The alloy can be tuned to alter its optical bandgap, which may be of use in the design of solar cells and light-emitting diodes. (Credit: Alex Kutana/Rice University)

http://news.rice.edu/files/2017/09/0925_BANDGAP-2-WEB-r0yn9c.jpg

Rice scientists have discovered a two-dimensional, four-component alloy with an optical bandgap that can be tuned by the temperature used to grow it via chemical vapor deposition. A computer-modeled illustration is featured in the current issue of Advanced Materials. (Credit: Illustration by Alex Kutana/Copyright Wiley-VCH Verlag GmbH & Co. KGaA. Reproduced with permission.)

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Media Contact

David Ruth
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http://news.rice.edu

Related Journal Article

http://dx.doi.org/10.1002/adma.201702457

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