Our publications
Vapor deposition rate modifies anisotropic glassy structure of an anthracene-based organic semiconductor." The Journal of Chemical Physics. 156 (2022).
"Stable Glasses of Organic Semiconductor Resist Crystallization." Journal of Physical Chemistry B. 125.1 (2021): 461-466.
"Using Deposition Rate and Substrate Temperature to Manipulate Liquid Crystal-Like Order in a Vapor-Deposited Hexagonal Columnar Glass." Journal of Physical Chemistry B. 125.10 (2021): 2761-2770.
"Molecular Orientation for Vapor-Deposited Organic Glasses Follows Rate-Temperature Superposition: The Case of Posaconazole." Journal of Physical Chemistry B. 124.12 (2020): 2505-2513.
"Over What Length Scale Does an Inorganic Substrate Perturb the Structure of a Glassy Organic Semiconductor." ACS Applied Materials and Interfaces. 12.23 (2020): 26717-26726.
"Vapor deposition of a nonmesogen prepares highly structured organic glasses." Proceedings of the National Academy of Sciences of the United States of America (2019).
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