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.
"Surface equilibration mechanism controls the molecular packing of glassy molecular semiconductors at organic-organic interfaces." PNAS. 118.42 (2021).
"Surface mobility in amorphous selenium and comparison with organic molecular glasses." Journal of Chemical Physics. 154.7 (2021).
"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.
"Controlling Structure and Properties of Vapor-Deposited Glasses of Organic Semiconductors: Recent Advances and Challenges." Journal of Physical Chemistry Letters. 11.17 (2020): 6935-6945.
"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.
"Physical vapor deposition of a polyamorphic system: Triphenyl phosphite." The Journal of Chemical Physics. 153.12 (2020).
"Rejuvination Versus Overaging: The Effect of Cyclic Loading/Unloading on the Segmental Dynamics of Poly(methyl methacrylate) Glasses." Macromolecules. 53.19 (2020): 8467-8475.
"Anisotropic Vapor-Deposited Glasses: Hybrid Organic Solids." Accounts of Chemical Research. 52 (2019).
"Dense Glass Packing Can Slow Reactions with an Atmospheric Gas." The Journal of Physical Chemistry B. 123.47 (2019).
"Effect of molecular size and hydrogen bonding on three surface-facilitated processes in molecular glasses: Surface diffusion, surface crystal growth, and formation of stable glasses by vapor deposition." Journal of Chemical Physics. 150.2 (2019).
"Enhanced Segmental Dynamics of Poly(lactic acid) Glasses during Constant Strain Rate Deformation." Macromolecules. 52.17 (2019).
"Generic packing motifs in vapor-deposited glasses of organic semiconductors." Soft Matter. 15.38 (2019).
"Linear Stress Relaxation and Probe Reorientation: Comparison of the Segmental Dynamics of Two Glassy Polymers during Physical Aging." Macromolecules (2019).
"Origin of Anisotropic Molecular Packing in Vapor-Deposited Alq3 Glasses." Journal of Physical Chemistry Letters. 10 (2019).
"Relationship between aged and vapor-deposited organic glasses: Secondary relaxations in methyl-m-toluate." The Journal of Chemical Physics. 151.14 (2019).
"Ultrastable and polyamorphic states of vapor-deposited 2-methyltetrahydrofuran." Journal of Chemical Physics. 150 (2019).
"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-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).
"Direct Comparison of Probe Reorientation and Linear Mechanical Measurements of Segmental Dynamics in Glassy Poly(methyl methacrylate)." Macromolecules. 51.19 (2018).
"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).
"Glasses of three alkyl phosphates show a range of kinetic stabilities when prepared by physical vapor deposition." Journal of Chemical Physics. 148 (2018).
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