2025

[35] Konpal Raheja, Alexey Shorin, Dillon G Gagnon, Regan Lutz, Md Bablu Hasan, Mrigank Singh, Shane M Parker, Svetlana Morozova, Metin Karayilan*. “Thermoresponsive and Flow Behavior of Hyperbranched Polymers From ATRP Inimer.” Journal of Polymer Science, 2025

[34] Brittany K. Roopnarine, Adediwura D. Adedeji, Sujata Dhakal, Sneha Suresh and Svetlana Morozova*. “Nanoparticle dynamics near polyacrylamide gel interfaces.” ACS Polymers Au, 2025

[33] Adam Linscott, Nadia Nikolova, Brooke Husar, Vivek Sharma, and Svetlana Morozova*. “Extensional Rheological Properties of Poly-γ-Benzyl-L-Glutamate Across the Isotropic-Cholesteric Liquid Crystalline Phase Transition.” Macromolecules, 2025

[32] Sujata Dhakal, Samyuktha Chandrasekar, Adediwura Deborah Adedejia and Svetlana Morozova*. “Local deformation and dynamics of cross-linked hyaluronic acid gels at charged interfaces.” Soft Matter, 2025

[31] Elisabeth C Lloyd, Sujata Dhakal, Shahrouz Amini, Rami Alhasan, Peter Fratzl, Douglas R Tree, Svetlana Morozova, Robert Hickey*. “Porous hierarchically ordered hydrogels demonstrating structurally dependent mechanical properties.” Nature Communications, 2025

2024

[30] Kathryn G. Wilcox, Stephanie Kramer, Surajit Chatterjee, Adam Linscott, Sneha Suresh, Lydia Kisley, and Svetlana Morozova*, “Effect of polyacrylamide gel elasticity on collagen type II fibril assembly.” Soft Matter, 2024

[29] Dillon G. Gagnon, Dahbin Park, Kevin Yim, Svetlana Morozova*. “Optimizing anisotropic transport on bioinspired sawtooth surfaces.” Soft Matter, 2024

[28] Brittany K. Roopnarine, Svetlana Morozova*. “Effect of Salt Concentration on Polyelectrolytes in Convex Lens-induced Confinement (CLiC).” Macromolecules, 2024

2023

[27] Kathryn G. Wilcox, Kai Yamagami, Brittany Roopnarine, Adam Linscott, Svetlana Morozova*. “Effect of Polymer Gel Elasticity on Coacervate Phase Behavior.” ACS Polymers Au, 2023, invited

[26] Adam Linscott, Rene Zhu, Lauren Hong, Madison Castellanos, and Svetlana Morozova. “The Effects of Poly(ethylene glycol) Grafting Density on the Extensional Solution Flows of High Molecular Weight Polyacrylamide.” Journal of Polymer Science, 2023;1–13, invited

[25] Kathryn G. Wilcox, Alexandra Grinevich, Adam Linscott, Abhinendra Singh, and Svetlana Morozova, “Properties of Crosslinked Poly-L-Lysine Hydrogels Across the Random Coil-Helix Transition.” Macromolecular Chemistry and Physics, 2023, 2300227, invited

[24] Claire M.Barratt, Tejaswini K.Haraniya,Sofie J.Iwamas,bJustin J.Yun, Victor G.Desyatkin, Kathryn G.Wilcox, Svetlana A.Morozova, Valentin O.Rodionov. “Synthesis and conformational studies of hyperbranched-core star polymers with poly(γ–benzyl-L-glutamate) arms.” European Polymer Journal, 2023, 111859

[23] Brittany K. Roopnarine, Spencer C. Schmidt, Kevin J. Maxwell, Svetlana Morozova. “Effects of Molecular Weight and Surface Interactions on Polymer Diffusion in Confinement.” ACS Macro Letters, 2023

[22] Kathryn G. Wilcox, Grace M. Kemerer, and Svetlana Morozova. “Ionic environment effects on collagen type II persistence length and assembly.” JCP, 2023, 158, 044903.

2022

[21] Kathryn Grace Wilcox, Marlee Dingle, Ankit Saha, Michael Hore, Svetlana Morozova. “Persistence Length of α-Helical Poly-L-Lysine.” Soft Matter, 2022

[20] Sujata Dhakal, Zehao Chen, Daniel Estrin, Svetalana Morozova. “Spatially-Resolved Network Dynamics of Poly (vinyl alcohol) Gels Measured with Dynamic Small Angle Light Scattering.” Gels, 2022, 8, 394.

2021 and later

[19] Kathryn G. Wilcox,* Susan K. Kozawa,* and Svetlana Morozova. “Fundamentals and mechanics of polyelectrolyte gels: Thermodynamics, swelling, scattering, and elasticity.” Chemical Physics Reviews, 2021, 2, 041309

[18] Emmanuel Hitimana, Brittany K. Roopnarine, Svetlana Morozova. “Diffusive dynamics of charged nanoparticles in convex lens-induced confinement.” Soft Matter, 18 , 832-840

[17] Lucy Liberman, Peter W. Schmidt, McKenzie L. Coughlin, Asia Matatyaho Ya’akobi, Irina Davidovich, Jerrick Edmund, S. Piril Ertem, Svetlana Morozova, Yeshayahu Talmon, Frank S. Bates, and Timothy P. Lodge. “Salt-Dependent Structure in Methylcellulose Fibrillar Gels." Macromolecules, 2021

[16] Zhuoyun Cai, Artem Skabeev, Svetlana Morozova, and Jonathan Pham. “Fluid separation and network deformation in wetting of soft and swollen surfaces.” Communication Materials, 2021, 2, 1-11

[15] Svetlana Morozova, Emmanuel Hitimana, Sujata Dhakal, Kathryn G. Wilcox, and Daniel Estrin. “Scattering methods for determining structure and dynamics of polymer gels.” Journal of Applied Physics 2021, 129, 071101

[14] Svetlana Morozova. “Methylcellulose fibrils: a mini review.” Polymer International, 69, 125-130

Before independent career

[13] Svetlana Morozova*, Peter W. Schmidt*, Irina Davidovich, S. Piril Ertem, McKenzie L. Coughlin, Ishi Talmon, Theresa M. Reineke, Frank S. Bates, Timothy P. Lodge. “Internal Structure of Methylcellulose Fibrils.” Macromolecules, 2020, 53 , 398-405

[12] Svetlana Morozova, McKenzie L. Coughlin, Julia T. Early, S. Piril Ertem, Theresa M. Reineke, Frank S. Bates, Timothy P. Lodge. “Properties of chemically cross-linked methylcellulose gels.” Macromolecules, 2019, 52, 7740-7748

[11] Svetlana Morozova, Peter W. Schmidt, Frank S. Bates, Timothy P. Lodge. “Effects of poly(ethylene glycol) grafting density on methylcellulose fibril formation.” Macromolecules, 2018, 51.

[10] Peter W. Schmidt, Svetlana Morozova, Paige M. Owens, Roland Adden, Yongfu Li, Frank S. Bates, Timothy P. Lodge. “Molecular Weight Dependence of Methylcellulose Fibrillar Networks.” Macromolecules, 2018, 51, 7767-7775.

[9] Svetlana Morozova, Murugappan Muthukumar. “Electrostatic Effects in Collagen Fibrillization.” JCP, 2018, 149, 163333.

[8] Svetlana Morozova*, Peter W. Schmidt*, Athena Metaxas*, Frank S. Bates, Timothy P. Lodge, Cari S. Dutcher. “Extensional flow behavior of methylcellulose solutions containing fibrils.” ACS Macro Letters, 2018, 7, 347-352

[7] Timothy P. Lodge, Amanda Maxwell, Joseph Lott, Peter W. Schmidt, John McAllister, Svetlana Morozova, Frank S. Bates, Yongfu Li, Robert  Sammler. “Gelation, Phase Separation, and Fibril Formation in Aqueous Hydroxypropylmethylcellulose Solutions.” Biomacromolecules, 2018, 19, 816-824.

[6] Svetlana Morozova, Timothy P. Lodge. “Conformation of Methylcellulose as a Function of Poly (ethylene glycol) Graft Density.” ACS Macro. Letters. 2017, 6, 1274

[5] Svetlana Morozova. “Vitreous Gel Physics.” (2017). Doctoral Dissertations. 933. scholarworks.umass.edu/dissertations_2/933

[4] Svetlana Morozova, Murugappan Muthukumar. “Elasticity at swelling equilibrium of ultra-soft polyelectrolyte gels: comparisons of theory and experiments” Macromolecules. 2017, 50, 2456

[3] Svetlana Morozova, Paul Hamilton, Nathan Ravi, Murugappan Muthukumar. “Development of vitreous substitutes: Incorporating charges and fibrous structures in synthetic hydrogel materials.” Macromolecules. 2016, 49, 4619

[2] Svetlana Morozova, Gaojie Hu, Todd Emrick, Murugappan Muthukumar. “Influence of Dipole Orientation on Solution Properties of Polyelectrolytes.” ACS Macro. Letters. 2016, 5, 118.

[1] Leif Ristroph, Gunnar Ristroph, Svetlana Morozova, Attila J. Bergou, Song Chang, John Guckenheimer, Z. Jane Wang, and Itai Cohen. “Active and passive stabilization of body pitch in insect flight.” J. R. Soc. Interface. 2013, 10, 85