- Phukan M. , Haritha P., Roy, T. R and Iyer B. V. S., Mechanical response of networks formed by end-functionalised spherical polymer grafted nanoparticles, Soft Matter, 18, 8591–8604(2022).
- Iyer B. V. S., Effect of functional anisotropy on the local dynamics of polymer grafted nanoparticles, Soft Matter, DOI: 10.1039/d2sm00710j,18, 6209-6221(2022).
- Diksha Kadre and Iyer B. V. S., Modeling Local Shear Dynamics of Functionalized Polymer Grafted Nanoparticles, Macromolecular Theory and Simulations, DOI: 10.1002/mats.202100005,30, 210005:1-19 (2021).
- Phukan M., Anjikar A. and Iyer, B. V. S., Effect of Grafting Density on Local dynamics in Functionalized Polymer Grafted Nanoparticle Systems, Bull. Mater. Sci., 43, 189:1-13(2020).
- Athira S. M. and Iyer, B. V. S., Computational study of pair interactions between functionalized polymer grafted nanoparticles, Ind & Eng Chem Res., 58, 7478-7488 (2019).
- Mbanga, B. L., Iyer, B. V. S., Yashin, V. V. and Balazs, A. C., Tuning the Mechanical Properties of Polymer-Grafted Nanoparticle Networks through the Use of Biomimetic Catch Bonds, Macromolecules, 49, 1353-1361 (2016).
- Iyer, B. V. S., Yashin, V. V. and Balazs, A. C., Harnessing Biomimetic Catch Bonds to Create Mechanically Robust Nanoparticle Networks, Polymer, 69, 310-320 (2015). Featured in Materials Today.
- Iyer, B. V. S., Yashin, V. V., Hamer, M. J., Kowalewski, T., Matyjaszewski, K. and Balazs, A. C., Ductility, toughness and strain recovery in self-healing dual cross-linked nanoparticle networks studied by computer simulations, Progress in Polymer Science, 40, 121-137 (2015).
- Hamer, M. J., Iyer, B. V. S., Yashin, V. V.,and Balazs, A. C., Designing Mechanomutable Composites: Reconfiguring the Structure of Nanoparticle Networks Through Mechanical Deformation, ACS NanoLetters, 14, 4745-4750(2014).
- Iyer, B. V. S., Yashin, V. V. and Balazs A. C., Dynamic behaviour of dual cross-linked nanoparticle networks under oscillatory shear, New J. Phys., 16, (075009)1-26 (2014).
- Hamer, M. J., Iyer, B. V. S., Yashin, V. V., Kowalewski, T., Matyjaszewski, K. and Balazs, A. C., Modeling polymer grafted nanoparticle networks reinforced by high strength chains, Soft Matter, 10, 1374-1383(2013).
- Iyer, B. V. S., Yashin, V. V., Kowalewski, T., Matyjaszewski, K. and Balazs, A. C., Strain recovery and self-healing in dual cross-linked nanoparticle networks, Polymer Chemistry, 4, 4927-4939 (2013).
- Iyer, B. V. S., Salib, I. G., Yashin, V. V., Kowalewski, T., Matyjaszewski, K. and Balazs, A. C., Modeling the response of dual cross-linked nanoparticle networks to mechanical deformation, Soft Matter, 9, 109-121(2013), Highlighted Cover Article.
- Iyer, B. V. S. and Arya, G., Lattice-Animal Model of Interphase Chromosome Organization, Phys Rev E, 86, 011911-1-7(2012).
- Iyer, B. V. S., Kenward, M. and Arya, G., Hierarchies in Eukaryotic Genome Organization: Insights from Polymer Theory and Simulations, BMC Biophysics 4:8 April(2011), Highly Accessed Featured Review Article.
- Iyer, B. V. S., Lele, A. K., Juvekar, V. A. and Mashelkar R. A., Self-Similar Dynamics of a Flexible Ring Polymer in a Fixed Obstacle Environment: A Coarse-Grained Molecular Model, Ind Eng Chem Res, 48, 9514-9522(2009).
- Iyer, B. V. S., Shanbag, S., Juvekar, V. A. and Lele A. K., Self Diffusion Coefficient of Ring Polymers in Semi-dilute Solution, J Polym Sci Pol Phys, 40, 2370-2379(2008).
- Iyer, B. V. S., Lele, A. K. and Shanbhag, S., What is the size of a ring polymer in a ring-linear blend?, Macromolecules, 40, 5995-6000(2007).
- Iyer, B. V. S., Lele, A. K. and Juvekar, V. A., Flexible ring polymers in an obstacle environment: Molecular theory of linear viscoelasticity, Phys Rev E, 74, 021805-1-12(2006).
- Subramanian, G. (aka Iyer, B. V. S.), Ranade, V., Nagarkar, S. and Lele A. Matched asymptotic solution for flow in a semi-hyperbolic die, Chem Eng Sci, 60, 3107-3110(2005).