Publications
Polymer Microparticles Exhibit Size and Shape Dependent Accumulation around the Nucleus after Endocytosis. Advanced Functional Materials. 22:3759–3764.
.
2012. Spontaneous shape reconfigurations in multicompartmental microcylinders. Proceedings of the National Academy of Sciences. 109:16057–16062.
.
2012. Delivering Nanoparticles to Lungs while Avoiding Liver and Spleen through Adsorption on Red Blood Cells. ACS nano. 7:11129–11137.
.
2013. Particle shape enhances specificity of antibody-displaying nanoparticles. Proceedings of the National Academy of Sciences. 110:3270–3275.
.
2013. A permeation enhancer for increasing transport of therapeutic macromolecules across the intestine. Journal of Controlled Release. 172:541–549.
.
2013. Using shape effects to target antibody-coated nanoparticles to lung and brain endothelium. Proceedings of the National Academy of Sciences. 110:10753–10758.
.
2013. .
2014.
Monocyte-mediated delivery of polymeric backpacks to inflamed tissues: a generalized strategy to deliver drugs to treat inflammation. Journal of Controlled Release.
.
2014. .
2014. Topical delivery of Cyclosporine A into the skin using SPACE-peptide. Journal of Controlled Release.
.
2014. Topical delivery of hyaluronic acid into skin using SPACE-peptide carriers. Journal of Controlled Release. 173:67–74.
.
2014. Topical delivery of siRNA into skin using SPACE-peptide carriers. Journal of Controlled Release. 179:33–41.
.
2014. Synthesis and Characterization of a Self-Fluorescent Hyaluronic Acid–Based Gel for Dermal Applications. Advanced Healthcare Materials. 4:2297–2305.
.
2015. Macrophage-mediated delivery of light activated nitric oxide prodrugs with spatial{,} temporal and concentration control. Chem. Sci.. :-.
.
2018. A microfluidic model of human brain (μHuB) for assessment of blood brain barrier. Bioengineering & Translational Medicine.
.
2018. A microfluidic model of human brain (μHuB) for assessment of blood brain barrier. Bioengineering & Translational Medicine. 4:e10126.
.
2019.