Our publications

Author Title [ Type(Asc)] Year
Journal Article
Moog, R. S., et al. "VISCOSITY DEPENDENCE OF THE ROTATIONAL REORIENTATION OF RHODAMINE-B IN MONO-ALCOHOL AND POLY-ALCOHOL - PICOSECOND TRANSIENT GRATING EXPERIMENTS." J. Phys. Chem.. 86 (1982): 4694-4700.
Waldow, D. A., et al. "VISCOSITY DEPENDENCE OF THE LOCAL SEGMENTAL DYNAMICS OF ANTHRACENE-LABELED POLYSTYRENE IN DILUTE-SOLUTION." Macromolecules. 24 (1991): 3147-3153.
Adolf, D. B., et al. "VISCOSITY DEPENDENCE OF THE LOCAL SEGMENTAL DYNAMICS OF ANTHRACENE-LABELED POLYISOPRENE IN DILUTE-SOLUTION." Macromolecules. 25 (1992): 867-872.
Zhu, W., and M. D. Ediger. "Viscosity dependence of polystyrene local dynamics in dilute solution." Macromolecules. 30 (1997): 1205-1210.
Whitaker, Katherine R., et al. "Vapor-deposited α,α,β-tris-naphthylbenzene glasses with low heat capacity and high kinetic stability." Journal of Chemical Physics. 137.15 (2012).
Qiu, Yue, S. S. Dalal, and M. D. Ediger. "Vapor-deposited organic glasses exhibit enhanced stability against photodegradation." Soft Matter. 14 (2018).
Gujral, Ankit, et al. "Vapor-Deposited Glasses with Long-Range Columnar Liquid Crystalline Order." Chemistry of Materials. 29 (2017).
Ediger, M. D.. "Vapor-deposited glasses provide clearer view of two-level systems." PNAS. 111.31 (2014).
Tylinski, M., et al. "Vapor-deposited glasses of methyl-m-toluate: How uniform is stable glass transformation?" Journal of Chemical Physics. 143 (2015): 10.
Bishop, C.. "Vapor-Deposited Glass Structure Determined by Deposition Rate–Substrate Temperature Superposition Principle." Journal of Physical Chemistry Letters. 10 (2019).
Beasley, M.S.. "Vapor-Deposited Ethylbenzene Glasses Approach “Ideal Glass” Density." Journal of Physical Chemistry Letters. 10 (2019).
Tylinski, M., et al. "Vapor-deposited alcohol glasses reveal a wide range of kinetic stability." Journal of Chemical Physics. 145 (2016).
Bishop, Camille, et al. "Vapor deposition rate modifies anisotropic glassy structure of an anthracene-based organic semiconductor." The Journal of Chemical Physics. 156 (2022).
Gómez-Zayas, Jaritza, et al. "Vapor deposition of a smectic liquid crystal: highly anisotropic, homogeneous glasses with tunable molecular orientation." Soft Matter. 12 (2016): 2942-2947.
Bishop, Camille, et al. "Vapor deposition of a nonmesogen prepares highly structured organic glasses." Proceedings of the National Academy of Sciences of the United States of America (2019).
Bishop, Camille, et al. "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.
Singh, Sadanan, M. D. Ediger, and Juan J. de Pablo. "Ultrastable glasses from in silico vapour deposition." Nature Materials. 12.2 (2013).
Riechers, Birte. "Ultrastable and polyamorphic states of vapor-deposited 2-methyltetrahydrofuran." Journal of Chemical Physics. 150 (2019).
Zhao, J. S., et al. "Two DSC Glass Transitions in Miscible Blends of Polyisoprene/Poly (4-tert-butylstyrene)." Macromolecules. 42 (2009): 6777-6783.
Dalal, Shakeel, et al. "Tunable molecular orientation and elevated thermal stability of vapor-deposited organic semiconductors." PNAS. 112.14 (2015).
Cicerone, M. T., P. A. Wagner, and M. D. Ediger. "Translational diffusion on heterogeneous lattices: A model for dynamics in glass forming materials." J. Phys. Chem. B. 101 (1997): 8727-8734.
Bainbridge, D., and M. D. Ediger. "Translational diffusion of rubrene and tetracene in polyisobutylene." Rheol. Acta. 36 (1997): 209-216.
Blackburn, F. R., C. Y. Wang, and M. D. Ediger. "Translational and rotational motion of probes in supercooled 1,3,5-tris(naphthyl)benzene." J. Phys. Chem.. 100 (1996): 18249-18257.
Swallen, S. F., et al. "Transformation of Stable Glasses into Supercooled Liquids: Growth Fronts and Anomalously Fast Liquid Diffusion." J. Phys. Chem. B. 114 (2010).
Hyde, P. D., and M. D. Ediger. "TIME-RESOLVED OPTICAL STUDY OF THE ROTATIONAL MOBILITY OF SMALL PROBE MOLECULES IN BULK POLYISOPRENE." Macromolecules. 22 (1989): 1510-1512.

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