@article{rastogi_garcia_marquez_velev_2010, title={Anisotropic particle synthesis inside droplet templates on superhydrophobic surfaces}, volume={31}, number={2}, journal={Macromolecular Rapid Communications}, author={Rastogi, V. and Garcia, A. A. and Marquez, M. and Velev, O. D.}, year={2010}, pages={190–195} }
 @article{rastogi_velikov_velev_2010, title={Microfluidic characterization of sustained solute release from porous supraparticles}, volume={12}, number={38}, journal={Physical Chemistry Chemical Physics}, author={Rastogi, V. and Velikov, K. P. and Velev, O. D.}, year={2010}, pages={11975–11983} }
 @article{rastogi_melle_calderon_garcia_marquez_velev_2008, title={Synthesis of Light-Diffracting Assemblies from Microspheres and Nanoparticles in Droplets on a Superhydrophobic Surface}, volume={20}, ISSN={["1521-4095"]}, url={http://www.scopus.com/inward/record.url?eid=2-s2.0-56349142461&partnerID=MN8TOARS}, DOI={10.1002/adma.200703008}, abstractNote={Self-assembly of colloidal particles into crystalline arrays can be an effective tool for fabricating novel materials with advanced functionality. The periodicity at the micrometer and sub-micrometer length scales imparts light manipulation capability to these artificial structures in a manner similar to that in natural opals. Properties such as long-range ordering, maximal packing density, well-defined pore size, and high surface-to-volume ratio make these assemblies usable in areas such as photonics, optical diffraction, antireflective coatings, sensing, separation processes, catalysis, and anisotropic particle fabrication. Several methods have been devised to arrange organic or inorganic particles into well-ordered arrays. Some techniques assemble the colloidal particles into macroscopic spherical structures that can encapsulate proteins, cells, food flavors, drugs, and other functional components. Such structures have been named colloidosomes, supraparticles, or supraballs. The techniques for preparing supraparticles frommonodisperse particle suspensions can be classified into two broad categories: Wet self-assembly (WSA) and dry self-assembly (DSA). WSA forms supraparticles by assembly inside or around droplet templates suspended in liquidmedia. Examples ofWSA}, number={22}, journal={ADVANCED MATERIALS}, author={Rastogi, Vinayak and Melle, Sonia and Calderon, Oscar G. and Garcia, Antonio A. and Marquez, Manuel and Velev, Orlin D.}, year={2008}, month={Nov}, pages={4263–4268} }
 @article{rastogi_velev_2007, title={Development and evaluation of realistic microbioassays in freely suspended droplets on a chip}, volume={1}, number={1}, journal={Biomicrofluidics}, author={Rastogi, V. and Velev, O. D.}, year={2007} }