- Defect Pinning in Monolayer Films by Highly Controlled Graphite Defects: Molecule Corrals
- Nanometer-Scale Aspects of Molecular Ordering in Nanocrystalline Domains at a Solid Interface: The Role of Liquid Crystal-Surface Interactions Studied by STM and
- Getting Organized at the Nanoscale with Thermotropic Liquid Crystal David L. Patrick
- Chiral Symmetry Breaking in Interfacial Fluids of Achiral Molecules Patrick B. Kohl and David L. Patrick*
- Mechanistic Origins of Hierarchical Order in Organic Monolayers Deposited From Liquid Crystal Solvents
- Stamping Oriented Molecular Monolayers Using Liquid Crystal Inks
- This article is part of the Molecule-based Surface Chemistry
- Engineered Growth of Organic Crystalline Films Using Liquid Crystal F. Scott Wilkinson, Ronald F. Norwood, Joseph M. McLellan, L. Rhys Lawson, and David L. Patrick*
- Engineered Growth of Organic Crystalline Films Using Liquid Crystal Solvents
- Organizing Carbon Nanotubes with Liquid Crystals
- Cooperative Ordering at Liquid Crystal Interfaces and Its Role in Orientational Memory Douglas M. Scott,
- VOLUME 84, NUMBER 12 P H Y S I C A L R E V I E W L E T T E R S 20 MARCH 2000 Formation of Uniaxial Molecular Films by Liquid-Crystal Imprinting in a Magnetic Field
- Atomistic Molecular Dynamics Simulations of Chemical Force David L. Patrick,*, John F. Flanagan, IV, Patrick Kohl, and Ruth M. Lynden-Bell
- Competitive Adsorption, Phase Segregation, and Molecular Motion at a Solid-Liquid Interface Studied by Scanning
- Transition from Epitaxial to Nonepitaxial Ordered Monolayers in Pyrolyzed 8CB Studied by STM
- (1984). (22) A. E. Asku and D. J. W. Piper, Mar. Geol. 54, 1 (1984). (23) reference (6). (24) L. I.
- Controlling molecular alignment in an organic monolayer with a sacrificial liquid crystal template
- Mechanism of Molecular Ordering in Monolayer Liquid Crystal Films David L. Patrick, Victor J. Cee, and Thomas P. Beebe, Jr.*
- 298 Langmuir 1994,10, 298-302 Substrate Defects and Variations in Interfacial Ordering of
- Surface Science 431 (1999) 260268 www.elsevier.nl/locate/susc
- Controlling the Orientation of Micron-Sized Rod-Shaped SiC Particles with Nematic Liquid Crystal Solvents
- Education & Experience B.S. Chemistry, University of California
- Simulations of luminescent solar concentrators: Effects of polarization and fluorophore alignment
