Crystal wars

July 01, 2020

Tokyo, Japan - A team of researchers at The University of Tokyo and Fudan University studied the process of crystallization when more than one structural arrangement is possible. By reducing the noise from random fluctuations, they found that transient precursors of the various crystalline orderings coexist and compete with each other. This work may help lead to more efficient crystal engineering methods.

One of most popular exhibits of any geology museum must be the crystal section. Large flat rectangular or tetrahedral faces of an elegant crystal reflect underlying molecular patterns. On closer inspection, some specimens turn out to be mosaics of different shapes, showing that the same atoms can arrange themselves in multiple ways, called polymorphism. In fact, all crystals are just repeating arrangements of atoms or larger particles that typically grow from smaller "seeds." These seeds serve as initial templates that allow new particles to attach in the proper locations. However, when multiple structures exhibit similar stabilities, the crystallization process can become extremely complex.

To better understand this, researchers at The University of Tokyo and Fudan University studied an experimental system consisting of uniform poly(methyl methacrylate) colloidal spheres. Using confocal microscopy, which allows the 3D-positions of many particles to be tracked simultaneously, along with powerful computer algorithms, the team observed a seething mixture of competing structures constantly breaking and reforming. Each type of crystalline ordering precursor was in competition to seed the growth of that type of structure. The scientists discovered that the intermediate structures before crystallization was complete turned out to be mixtures of local orders that were short-lived and frequently transformed into each other. "Competition between different crystal orderings takes place locally and can be masked by large positional fluctuations," says senior author Peng Tan.

To overcome this noise, the team had to use computational methods to correctly classify the various structures. The spatial coexistence of phases, together with newly found temporal fluctuations of competing orders, shows that disorder is an intrinsic feature of crystal precursors.

"Our method provides the clearest picture yet of the competition that can exist between the various crystalline forms in a single sample," says senior author Hajime Tanaka. "This research may pave the way for new approaches for the industrial production of crystalline materials."
-end-
The work is published in Science Advances as "Revealing roles of competing local structural orderings in crystallization of polymorphic systems." (DOI: 10.1126/sciadv.aaw8938)

About Institute of Industrial Science (IIS), the University of Tokyo

Institute of Industrial Science (IIS), the University of Tokyo is one of the largest university-attached research institutes in Japan.

More than 120 research laboratories, each headed by a faculty member, comprise IIS, with more than 1,000 members including approximately 300 staff and 700 students actively engaged in education and research. Our activities cover almost all the areas of engineering disciplines. Since its foundation in 1949, IIS has worked to bridge the huge gaps that exist between academic disciplines and real-world applications.

Institute of Industrial Science, The University of Tokyo

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