GOALI: Crystallization of Organic Glasses
University Of Wisconsin-Madison, Madison WI
Investigators
Abstract
DMR 0907031 GOALI: Crystallization of Organic Glasses TECHNICAL SUMMARY: In this collaborative project, Profs. Lian Yu, Mark Ediger, and Juan de Pablo of the University of Wisconsin ? Madison, Dr. Geoff Zhang of Abbott Laboratories, and their research student colleagues will investigate the crystallization of organic glasses. Glasses are liquids that are too cold to flow. According to the current view that crystallization is controlled by diffusion, organic glasses should not crystallize readily. Yet recent work has shown that many do crystallize, sometimes at rates 105 times faster than predicted by the standard models. This study concerns two modes of crystal growth activated near the glass transition temperature: a bulk mode and a surface mode. Both growth modes are too fast to be controlled by bulk diffusion. The team will test the hypothesis that molecular motions native to the glassy state can cause crystal growth, without involving substantial bulk diffusion, if sufficient similarity exists between the crystal and liquid structures. They will determine whether crystal growth in the glassy state becomes faster if bulk molecular motions are amplified with an external field. They will study whether surface-enhanced crystal growth results from surface-enhanced molecular mobility. Surface diffusion coefficients of organic glasses will be measured for the first time by the method of surface grating decay and correlated with surface crystal growth rates. The project will examine what properties of coating materials are important for suppressing surface crystallization. Computer simulations will identify the underlying mechanisms of bulk and surface crystal growth of organic glasses. For each growth mode, a screening experiment will be performed to assess its generality and polymer additives will be added to perturb it for further insights on its mechanism and control. NON-TECHNICAL SUMMARY: Crystallization influences almost every aspect of modern technology. While it has been extensively studied for hard inorganic materials, crystallization remains poorly understood for organic materials. In this collaborative project, a team of academic and industrial researchers will seek to understand the crystallization of organic glasses. Glasses are liquids that are too cold to flow; they are the preferred materials for many applications, ranging from pharmaceutical development to telecommunication. The team will study the activation of new, fast modes of crystal growth as a liquid becomes a glass and the control of these new modes in developing amorphous materials. The results of this research will benefit scientists in a range of fields where crystal growth is important; for example, amorphous pharmaceuticals and organic electronics. The enormous potential of using amorphous solids to enhance the bioavailability of poorly soluble drugs has motivated Abbott to partner with the University of Wisconsin in this project. It is a unique advantage that the Chicago-based Abbott is only a short distance away from Madison, enabling close interactions between the collaborators. Graduate and undergraduate students will benefit from the multi-disciplinary nature of this project, having significant exposure to experiments and simulations, crystals and glasses, high and low molecular weight organic materials, and both industrial and academic research labs. Personnel supported by this grant will work with UW-Madison?s Pre-college Enrichment Opportunity Program for Learning Excellence (PEOPLE), which has a proven record of increasing the enrollment of minority and low-income high school students in colleges and universities. This program provides experiences that help students to become scientifically literate citizens and encourages them to consider careers in science and engineering.
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