2010 – 2014

Shemi, O. and Solomon, M.J., “Effect of Surface Chemistry and Metallic Layer Thickness on the Clustering of Metallodielectric Janus Spheres,” Langmuir, 30, 15408-15415 (2014).

Shah, A.A., Ganesan, M., Jocz, J., and Solomon, M.J., “Direct Current Electric Field Assembly of Collodal Crystals Displaying Reversible Structural Color,” ACS Nano, 8, 8095-8103 (2014).

Pavlovsky, L., Ganesan, M., Younger, J.G., and Solomon, M.J., “Elasticity of microscale volumes of viscoelastic soft matter by cavitation,” Applied Physics Letters,105, 114105 (2014).

Kim, Y., Shah, A.A., and Solomon, M.J., “Spatially and temporally reconfigurable assembly of colloidal crystals,” Nature, (2014).

Stewart, E.J., A.E. Satorius, J.G. Younger, and Solomon, M.J., “Role of Environmental and Antibiotic Stress on Staphylococcus epidermidis Biofilm Microstructure,” Langmuir, 29 (23), 7017-7024 (2013).

Shah, A.A., Schultz, B., Kohlstedt, K.L., Glotzer, S.C., and Solomon, M.J., “Synthesis, Assembly, and Image Analysis of Spheroidal Patchy Particles,” Langmuir, 29 (15), 4688-4696 (2013).

Ganesan, M., Stewart, E.J., J. Szafranski, A.E. Satorius, J.G. Younger, and Solomon, M.J., “Molar Mass, Entanglement, and Associations of the Biofilm Polysaccharide of Staphylococcus epidermidis,” Biomacromolecules, 14 (5), 1474-1481 (2013).

Shah, A.A., Kang, H., Kohlstedt, K.L., Ahn, K.H., Glotzer, S.C., Monroe, C.W. and Solomon, M.J., “Liquid Crystal Order in Colloidal Suspensions of Spheroidal Particles by Direct Current Electric Field Assembly,” Small, 8 (10), 1551-1562 (2012).

Hsiao, L.C., Newman, R.S., Glotzer, S.C. and Solomon, M.J., “Role of isostaticity and load-bearing microstructure in the elasticity of yielded colloidal gels,” PNAS, 109 (40), 16029-16034 (2012).

Pavlovsky, L., Younger, J.G., Solomon, M.J., “In situ rheology of Staphylococcus epidermidis bacterial biofilms,” Soft Matter, 9, 122-131 (2012).

Solomon, M.J., “Directions for targeted self-assembly of anisotropic colloids from statistical thermodynamics,” Current Opinion in Colloid Interface Science, 16(2) 158-167 (2011).

Dzul, S.P., M.M. Thornton, D.N. Hohne, D.M. Bortz, M.J. Solomon and J.G. Younger, “Contribution of the Klebsiella pneumoniae Capsule to Bacterial Community Microstructure Determined With High-Resolution Confocal Microscopy,” Applied and Environmental Microbiology, 77(5) 1777-1782 (2011).

Bryne, E., D.M. Bortz, S. Dzul, M.J. Solomon and J. Younger, “Postfragmentation density function for bacterial aggregates in laminar flow,” Phys. Rev E., 83(4) 041911(2011).

Mukhija, D. and M.J. Solomon, “Nematic order in suspensions of colloidal rods by application of a centrifugal field,” Soft Matter, 7 540-545 (2011).

Elbing, B., M.J. Solomon, M. Perlin, D. Dowling and S.L. Ceccio, “Flow-induced degradation of Drag-Reducing Polymer Solutions within a High-Reynolds Number Turbulent Boundary Layer,” J. Fluid Mechanics 670 337-364 (2011).

Shereda, L.T., R.G. Larson, and M.J. Solomon, “Shear banding in crystallization colloidal suspensions,” Korea-Australia Rheology Journal 22(4) 309-316 (2010).

Shereda, L.T., and R.G. Larson and M.J. Solomon, “Boundary-driven colloidal crystallization in simple shear flow,” Physical Review Letters, 105 228-302 (2010).

Lacovella, C.R., R.E. Rogers, S.C. Glotzer and M.J. Solomon, “Pair interaction potentials of colloids by extrapolation of confocal microscopy measurements of collective structure,” submitted to J. Chem. Phys. 133 art no. 164903 (2010).

Zeitoun, R., D. Chang, S. Langelier, J. Millunchick, M.J. Solomon and M.A. Burns, “Selective ARraying of Complex Particle and Cell Pattern,” Lab on a Chip 10 1142-1147 (2010).

Solomon, M.J. and P.T. Spicer, “Microstructural regimes of colloidal rod suspensions, gels, and glasses,” Soft Matter, 6 1391-1400 (2010).

Solomon, M.J. R. Zeitoun, D. Ortiz, K.E. Sung, A. Shah, M.A. Burns, S.C. Glotzer, J.M. Millunchick, “Toward assembly of open colloidal structures from anisotropic pentamer particles,” Macromolecular Rapid Communications 31 196-201 (2010).

Kogan, M and M.J. Solomon, “Electric-field induced yielding of colloidal gels in microfluidic capillaries,” Langmuir, 26(2) 1207-1213 (2010).