Publications
Peer-Reviewed Journals
Sekar, H., Tirumkudulu, M., & Gundabala, V. (2024). Film Formation of Iodinated Latex Dispersions and Its Role in Their Antimicrobial Activity. Langmuir, 40 (17), 9197-9204.
Naveenkumar, P. M., Maheshwari, H., Gundabala, V., Mann, S., & Sharma, K. P. (2023). Patterning of Protein-Sequestered Liquid-Crystal Droplets Using Acoustic Wave Trapping. Langmuir, 40(1), 871-881.
Sekar, H., Tirumkudulu, M. S., & Gundabala, V. (2023). Development of antibacterial waterborne polymeric coating using iodine complex. Journal of Coatings Technology and Research, 21(2), 773-787.
Sharma, K., Pandey, S., Sekar, H., Alan, T., & Gundabala, V. (2023). Microfluidics-Based Generation of Curcumin Loaded Microfibrous Mat against Staphylococcus aureus Biofilm by Photodynamic Therapy. ACS Applied Bio Materials, 6(3), 1092-1104.
Ray, N. K., Patel, H., Muñoz-Espí, R., Landfester, K., & Gundabala, V. (2022). Synthesis of silver-coated polystyrene latex through in situ metal reduction. MRS Communications, 12(5), 952-958.
Pandey, S., Sharma, K., & Gundabala, V. (2022). Development of a Lemongrass/Silver Nanocomposite for Controlling a Foodborne Pathogen-Escherichia coli. ACS Food Science & Technology, 2(12), 1850-1861.
Pandey, S., Sharma, K., & Gundabala, V. (2022). Antimicrobial bio-inspired active packaging materials for shelf life and safety development: A review. Food Bioscience, 101730.
Eqbal, M. D., Naaz, F., Sharma, K., & Gundabala, V. (2021). Microfluidics-based generation of cell encapsulated microbeads in the presence of electric fields and spatio-temporal viability studies. Colloids and Surfaces B: Biointerfaces, 208, 112065.
Prerna Chandna and Venkat Gundabala. "Pillar based microfluidic approach to sorting of microparticle mixtures at various particle ratios." Microfluidics and Nanofluidics 25.1, 1 (2021).
Bhargav Krishna Pullagura, Srujana Amarapalli, and Venkat Gundabala. "Coupling electrohydrodynamics with photopolymerization for microfluidics-based generation of polyethylene glycol diacrylate (PEGDA) microparticles and hydrogels." Colloids and Surfaces A: Physicochemical and Engineering Aspects 608, 125586 (2021).
Bhargav Krishna Pullagura and Venkat Gundabala, "Microfluidics-Based On-Demand Generation of Nonwoven and Single Polymer Microfibers." Langmuir 36(5), 1227 (2020).
Md Danish Eqbal and Venkat Gundabala, "On-chip generation of microcapsules in the presence of applied electric fields." Journal of Micromechanics and Microengineering 30(4), 045002, (2020).
Md Danish Eqbal and Venkat Gundabala, "Controlled fabrication of multi-core alginate microcapsules." Journal of colloid and interface science 507, 27 (2017).
Nitesh Kumar Ray and Venkat Gundabala, "Synthesis and characterization of titanium dioxide encapsulated poly (styrene-co-butyl acrylate-co-acrylic acid) nanocomposite latex." Progress in Organic Coatings 111, 93 (2017).
Josepha Guerrero, Javier Rivero, Venkata R. Gundabala, Miguel Perez-Sabroid, and Alberto Fernandez-Nieves, “Whipping of electrified jets”, Proc. Natl. Acad. Sci. USA 111, 13765 (2014).
Venkata R. Gundabala, Sergio Martinez-Escobar, Samantha Marquez, Manuel Marquez, and Alberto Fernandez-Nieves, “Celloidosomes via glass-based microfluidics”, J. Phys. D: Appl. Phys. 46, 114006 (2013).
Neus Vilanova, Venkata R. Gundabala, and Alberto Fernandez-Nieves, “Drop size control in electro-coflow”, Applied Physics Letters, 99, 021910 (2011).
Venkata R. Gundabala, Neus Vilanova, and Alberto Fernandez-Nieves, “Current-voltage characteristic of electrospray processes in microfluidics,” Physical Review Letters, 105, 154503 (2010).
Milan J. Patel, Venkata R. Gundabala, Francis Pardal, Elodie Bourgeat-Lami, and Alexander F. Routh, “Modeling film formation of polymer-clay nanocomposite particles,” Langmuir, 26, 3962 (2010).
E. Castro-Hernandez, Venkata R. Gundabala, A. Fernandez-Nieves, and J.M. Gordillo, “Scaling the drop size in coflow experiments,” New Journal of Physics, 11, 075021 (2009).
Venkata R. Gundabala, Chun-hong Lee, Keltoum Ouzineb, Olivier Dupont, Joseph L. Keddie, and Alexander F. Routh, “Lateral surface non-uniformities in drying latex films,” AIChE Journal, 54, 3092 (2008).
Venkata R. Gundabala and Alexander F. Routh, “Thinning of drying latex films due to surfactant,” Journal of Colloid and Interface Science, 303, 306 (2006).
Wai Peng Lee, Venkata R. Gundabala, Belinda S. Akpa, Michael L Johns, Chris Jeynes, and Alexander F. Routh, “Distribution of surfactants in latex films: A Rutherford Backscattering study,” Langmuir, 22, 5314 (2005).
Venkata R. Gundabala, William B. Zimmerman, and Alexander F. Routh, “A model for surfactant distribution in latex coatings,” Langmuir, 20, 8721 (2004).
Book Chapters
1) Venkata R. Gundabala and Alexander F. Routh, “Predicting surfactant distributions in dried latex films,” peer-reviewed book chapter in Film Formation: Process and Morphology, Theodore Provder ed., American Chemical Society Publications (2006).
2) Venkata R. Gundabala, William B. Zimmerman, and Alexander F. Routh, “Changing Geometry: Continuation and Moving Boundaries,” book chapter in Multiphysics Modeling with Finite Element Methods, World Scientific Pub. (2006).