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Resuscitation of Pseudomonas aeruginosa from dormancy requires hibernation promoting factor (PA4463) for ribosome preservation, T. Akiyama, K. S. Williamson, R. Schaefer, S. Pratt, C. B. Chang, M. J. Franklin, PNAS (2017), accepted.


New Technologies for Studying Biofilms, M.J. Franklin, C. B. Chang, T. Akiyama, B. Bothner, Microbial Biofilms, 2nd Edition, (2015).


Rapid, targeted and culture-free viral infectivity assay in drop-based microfluidics, Y. Tao, A. Rotem, H. Zhang, C. B. Chang, A. Basu, A. O. Kolawole, S. Koehler, Y. Ren, J. S. Lin, J. M. Pipas, A. B. Feldman, C. Wobus, D. A. Weitz, Lab on a Chip, 10.1039/C5LC00556F (2015).


Artifact‐free Quantification and Sequencing of Rare Recombinant Viruses Using Drop‐based microfluidics, Y. Tao, A. Rotem, H. Zhang, S. K. Cockrell, S. Koehler, C. B. Chang, L. W. Ung, P. Cantalupo, Y. Ren, J. S. Lin, A. B. Feldman, C. E. Wobus, J. M. Pipas, D. Weitz, ChemBioChem, 10.1002/cbic.201500384 (2015).


Isolation and Analysis of Rare Norovirus Recombinants from Co-Infected Mice Using Drop-Based Microfluidics, H. Zhang, S. K. Cockrell, A. O. Kolawole, A. Rotem, A. W. R. Serohijos, C. B. Chang, Y. Tao, T. S. Mehoke, Y. Han, J. S. Lin, N. S. Giacobbi, A. B. Feldman, E. Shakhnovich, D. A. Weitz, C. E. Wobus, J. M. Pipas, Journal of Virology, 89 (15):7722-34 (2015).


Monodisperse Emulsion Drop Microenvironments for Bacterial Biofilm Growth, C. B. Chang, J. N. Wilking, S. H. Kim, H. C. Shum, D. A. Weitz, Small, doi:10.1002/smll.201403125 (2015).


A High-Throughput Drop Microfluidic System for Virus Culture and Analysis, A. E. Fischer, S. K. Wu, J. B. G. Proescher, A. Rotem, C. B. Chang, H. Zhang, Y. Tao, T. S. Mehoke, P. M. Thielen, A. O. Kolawole, T. J. Smith, C. E. Wobus, D. A. Weitz, J. S. Lin, A. B. Feldman, J. T. Wolfe, J Virol Methods, 213C:111-117 (2014).


Shear-Induced Disruption of Dense Nanoemulsion Gels, J. N. Wilking, C. B. Chang, M. M. Fryd, L. Porcar, T. G. Mason,Langmuir27, 9 (2011).


Nanometer Distance Measurements Between Multicolor Quantum Dots, J. Antelman, C. B. Chang, S. Weiss, X. Michalet, Nano Lett., 9(5), 2199, (2009).

 

Nanoscale Double Emulsions Stabilized by Single Component Block CopolypeptidesJ.A. Hanson, C. B. Chang, S.M. Graves, Z. Li, T. G. Mason, T. J. Deming, Nature455, 85 (2008).

 

Curvature Dependence of Viral Protein Structures on Encapsidated Nanoemulsion Droplets, C. B. Chang, C. M. Knobler, W. M. Gelbart, T. G. Mason, ACS Nano2, 281 (2008).

 

Nanoemulsions: Formation, Structure, and Physical Properties, T. G. Mason, J. N. Wilking, K. Meleson, C. B. Chang, S. M. Graves, J. Phys.: Condens. Matter 18, R635 (2006). Featured in ‘Top Papers 2006 Showcase’

 

Dense Cluster Formation during Aggregation and Gelation of Attractive Slippery Nanoemulsion Droplets, J. N. Wilking, S. M. Graves, C. B. Chang, K. Meleson, M. Y. Lin and T. G. Mason, Phys. Rev. Lett96, 015501, (2006). Featured in the Virtual Journal of Nanoscale Science and Technology.

 

Quantification of methylene blue aggregation on a fused silica surface and resolution of individual absorbance spectra, S.M. Ohline, S. Lee, S. Williams, C. ChangChem. Phys. Lett. 346, 9, (2001).