Power of Light: Research Team Finds Light Is Key to Promising Material
July 6, 2017 | Florida State UniversityEstimated reading time: 2 minutes
A Florida State University research team has discovered that light can significantly alter the structure of a promising material that scientists believe could make more efficient light-emitting diodes, lasers and other photon-based technologies.
In the journal Angewandte Chemie International Edition, FAMU-FSU College of Engineering Associate Professor Biwu Ma explains how light can change a material called organometal halide perovskites from a 1-D to a zero-dimensional structure.
Computational studies suggest this zero-dimensional structure is more energetically and thermodynamically stable than the 1-D structure, and thus could make for more effective technologies.
Ma and his team have been working on organometal halide perovskites for the past few years with the hope to discover new functional materials that outperform conventional optoelectronic materials. A perovskite is any material with the same type of crystal structure as calcium titanium oxide, and hybrid metal halide perovskites have received increased attention in recent years for their potential applications in various types of photon-related technologies such as light-emitting diodes and lasers.
In this study, Ma and his team assembled organic and inorganic components with the intent to form single crystals with both 1-D and zero-dimensional structures.
“We have been developing new structures by treating the fundamental building blocks of this class of materials, metal halide octahedrons, as Lego pieces.” Ma said. “Theoretically, we could use them to build 3-D, 2-D, 1-D, and even zero-dimensional structures.”
While much work has been carried out in the field of organometal halide perovskites in recent years, the focus has been mainly on 3-D and 2-D structures, with 1-D and zero-dimensional structures significantly underexplored. As part of this process, Ma’s team discovered that light was actually capable of changing some of the 1-D crystals to a zero-dimensional crystal structure.
“Our work not only shows our capability of producing low dimensional perovskites with high yields, but sheds light on the critical photostability issues of organometal halide perovskites,” Ma said.
Ma’s co-authors on the paper are FSU professors Ronald Clark, Yanyan Hu, Theo Siegrist and Shangchao Lin; postdoctoral researchers Zhao Yuan, Mingchao Wang and Tiglet Besara; FSU graduate students Chenkun Zhou, Yu Tian, Alyssa Rose and Jamie Wang; and undergraduate student Nicholas Doyle.
Ma came to FSU as part of the Energy and Materials Strategic Initiative with a mission of producing high-tech materials for next generation, energy sustainable technology. His work is supported through the Energy and Materials Initiative.
This current research has also generated interest from the National Science Foundation, which recently awarded Ma a $428,650 grant to continue pursuing this line of work.
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