Our publications
Termination of Solid-State Crystal Growth in Molecular Glasses by Fluidity." Journal of Physical Chemistry Letters. 5.10 (2014).
"Thermal stability of vapor-deposited stable glasses of an organic semiconductor." Journal of Chemical Physics. 142 (2015).
"TIME-RESOLVED OPTICAL SPECTROSCOPY AS A PROBE OF LOCAL POLYMER MOTIONS." Acs Symposium SeriesAcs Symposium Series. 358 (1987): 68-82.
"TIME-RESOLVED OPTICAL STUDIES OF LOCAL POLYMER DYNAMICS." Annu. Rev. Phys. Chem.. 42 (1991): 225-250.
"TIME-RESOLVED OPTICAL STUDY OF THE ROTATIONAL MOBILITY OF SMALL PROBE MOLECULES IN BULK POLYISOPRENE." Macromolecules. 22 (1989): 1510-1512.
"Transformation of Stable Glasses into Supercooled Liquids: Growth Fronts and Anomalously Fast Liquid Diffusion." J. Phys. Chem. B. 114 (2010).
"Translational and rotational motion of probes in supercooled 1,3,5-tris(naphthyl)benzene." J. Phys. Chem.. 100 (1996): 18249-18257.
"Translational diffusion of rubrene and tetracene in polyisobutylene." Rheol. Acta. 36 (1997): 209-216.
"Translational diffusion on heterogeneous lattices: A model for dynamics in glass forming materials." J. Phys. Chem. B. 101 (1997): 8727-8734.
"Tunable molecular orientation and elevated thermal stability of vapor-deposited organic semiconductors." PNAS. 112.14 (2015).
"Two DSC Glass Transitions in Miscible Blends of Polyisoprene/Poly (4-tert-butylstyrene)." Macromolecules. 42 (2009): 6777-6783.
"Ultrastable and polyamorphic states of vapor-deposited 2-methyltetrahydrofuran." Journal of Chemical Physics. 150 (2019).
"Ultrastable glasses from in silico vapour deposition." Nature Materials. 12.2 (2013).
"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.
"Vapor deposition of a nonmesogen prepares highly structured organic glasses." Proceedings of the National Academy of Sciences of the United States of America (2019).
"Vapor deposition of a smectic liquid crystal: highly anisotropic, homogeneous glasses with tunable molecular orientation." Soft Matter. 12 (2016): 2942-2947.
"Vapor deposition rate modifies anisotropic glassy structure of an anthracene-based organic semiconductor." The Journal of Chemical Physics. 156 (2022).
"Vapor-deposited alcohol glasses reveal a wide range of kinetic stability." Journal of Chemical Physics. 145 (2016).
"Vapor-Deposited Ethylbenzene Glasses Approach “Ideal Glass” Density." Journal of Physical Chemistry Letters. 10 (2019).
"Vapor-Deposited Glass Structure Determined by Deposition Rate–Substrate Temperature Superposition Principle." Journal of Physical Chemistry Letters. 10 (2019).
"Vapor-deposited glasses of methyl-m-toluate: How uniform is stable glass transformation?" Journal of Chemical Physics. 143 (2015): 10.
"Vapor-deposited glasses provide clearer view of two-level systems." PNAS. 111.31 (2014).
"Vapor-Deposited Glasses with Long-Range Columnar Liquid Crystalline Order." Chemistry of Materials. 29 (2017).
"Vapor-deposited organic glasses exhibit enhanced stability against photodegradation." Soft Matter. 14 (2018).
"Vapor-deposited α,α,β-tris-naphthylbenzene glasses with low heat capacity and high kinetic stability." Journal of Chemical Physics. 137.15 (2012).
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