Our publications
Generic packing motifs in vapor-deposited glasses of organic semiconductors." Soft Matter. 15.38 (2019).
"Glass Structure Controls Crystal Polymorph Selection in Vapor-Deposited Films of 4,4 '-Bis(N-carbazolyI)-1,1 '-biphenyl." Crystal Growth & Design. 18.10 (2018).
"Glass surfaces not so glassy." Science. 319 (2008): 577-578.
"Glass transition and stable glass formation of tetrachloromethane." The Journal of Chemical Physics. 144 (2016).
"Glass transition of small polystyrene spheres in aqueous suspensions." J. Chem. Phys.. 119 (2003): 8730-8735.
"Glasses crystallize rapidly at free surfaces by growing crystals upward." PNAS. 108 (2011).
"Glasses of three alkyl phosphates show a range of kinetic stabilities when prepared by physical vapor deposition." Journal of Chemical Physics. 148 (2018).
"Heterogeneous dynamics during deformation of a polymer glass." Soft Matter. 6 (2010).
"High-barrier atropisomeric motion under constraint: From glassy heterogeneity to deviations from transition-state theory." Abstr. Pap. Am. Chem. Soc.. 219 (2000): U182.
"Highly Organized Smectic-like Packing in Vapor-Deposited Glasses of a Liquid Crystal." Chemistry of Materials.29 (2017).
"Highly Stable Glasses of cis-Decalin and cis/trans-Decalin Mixtures." Journal of Physical Chemistry B (2013).
"Highly Stable Indomethacin Glasses Resist Uptake of Water Vapor." J. Phys. Chem. B. 113 (2009): 2422-2427.
"Highly Stable Vapor-Deposited Glasses of Four Tris-naphthylbenzene Isomers." J. Phys. Chem. Lett.. 2 (2011).
"High-Modulus Organic Glasses Prepared by Physical Vapor Deposition." Adv. Mater.. 22 (2010).
" Hiking down the energy landscape: Progress toward the Kauzmann temperature via vapor deposition." J. Phys. Chem. B. 112 (2008): 4934-4942.
"HOW DO MOLECULES MOVE NEAR T-G - MOLECULAR ROTATION OF 6 PROBES IN O-TERPHENYL ACROSS 14 DECADES IN TIME." J. Chem. Phys.. 102 (1995): 471-479.
"How long do regions of different dynamics persist in supercooled o-terphenyl?" J. Phys. Chem. B. 103 (1999): 4177-4184.
"How much time is needed to form a kinetically stable glass? AC calorimetric study of vapor-deposited glasses of ethylcyclohexane." Journal of Chemical Physics. 142 (2015).
"In situ investigation of vapor-deposited glasses of toluene and ethylbenzene via alternating current chip-nanocalorimetry." Journal of Chemical Physics. 134.2 (2013).
"Increasing the kinetic stability of bulk metallic glasses." Acta Materialia. 104 (2016): 7.
"Influence of Hydrogen Bonding on the Kinetic Stability of Vapor-Deposited Glasses of Triazine Derivatives." Journal of Physical Chemistry B. 121.10 (2017).
"Influence of Hydrogen Bonding on the Surface Diffusion of Molecular Glasses: Comparison of Three Triazines." Journal of Physical Chemistry B. 121.29 (2017).
"Influence of Molecular Shape on the Thermal Stability and Molecular Orientation of Vapor-Deposited Organic Semiconductors." Journal of Physical Chemistry Letters. 8.14 (2017).
"Influence of spatially heterogeneous dynamics on physical aging of polystyrene." J. Chem. Phys.. 116 (2002): 9089-9099.
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