Publications

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Publications

Mechanics of molecular networks

White Z.T., Smith A.M. and Vernerey F.J. ā€” Mechanical cooperation between time-dependent and covalent bonds in molecular damage of polymer networks ā€” Communications Physics 8(1), 265, 2025

Karim M.R., Vernerey F.J. and Sain T. ā€” Constitutive Modeling of Vitrimers and Their Nanocomposites Based on Transient Network Theory ā€” Macromolecules 58(10), 4899ā€“4912, 2025

Assadi S., Lamont S., Hansoge N., Liu Z., Crespo V., Salmon F. and Vernerey F.J. ā€” Nonaffine Motion and Network Reorganization in Entangled Polymer Networks ā€” Soft Matter, 2025

Lamont S., Bouklas N. and Vernerey F.J. ā€” Cohesive instability in elastomers: Insights from a crosslinked Van der Waals fluid model ā€” International Journal of Fracture, 2025

Vernerey F.J., Rezaei B. and Lamont S.C. ā€” A kinetic theory for the mechanics and remodeling of transient anisotropic networks ā€” Journal of the Mechanics and Physics of Solids 190, 105713, 2024

Lamont S.C. and Vernerey F.J. ā€” Generalized continuum theory for nematic elastomers: Non-affine motion and characteristic behavior ā€” Journal of the Mechanics and Physics of Solids 105718, 2024

Song Z., Dong G., Vernerey F.J. and Cai S. ā€” Temperature- and Rate-Dependent Fracture in Disulfide Vitrimers ā€” ACS Macro Letters 13(8), 994ā€“999, 2024

Wagner R.J. and Vernerey F.J. ā€” Coupled bond dynamics alters relaxation in polymers with multiple intrinsic dissociation rates ā€” Soft Matter 19(15), 2716ā€“2725, 2023

Lamont S.C., Weishaar K., Bruns C.J. and Vernerey F.J. ā€” Micromechanics and damage in slide-ring networks ā€” Physical Review E 107(4), 044501, 2023

Xu L., Lamont S.C., Li T. et al. and Vernerey F.J. ā€” Nonlinear Viscoelasticity and Toughening Mechanisms in Nanoclay-PNIPAAm Double Network Hydrogels ā€” ACS Macro Letters 12(5), 549ā€“554, 2023

Vernerey F.J. ā€” Mechanics of transient semi-flexible networks: soft-elasticity, stress relaxation and remodeling ā€” Journal of the Mechanics and Physics of Solids 160, 104776, 2022

Wagner R.J., Dai J., Su X. and Vernerey F.J. ā€” A mesoscale model for the micromechanical study of gels ā€” Journal of the Mechanics and Physics of Solids 167, 104982, 2022

Shen T., Song Z., Cai S. and Vernerey F.J. ā€” Nonsteady fracture of transient networks: the case of vitrimer ā€” PNAS 118(29), e2105974118, 2021

Song Z., Shen T., Vernerey F.J. and Cai S. ā€” Force-dependent bond dissociation explains the rate-dependent fracture of vitrimers ā€” Soft Matter, 2021

Wagner R.J., Hobbs E. and Vernerey F.J. ā€” A network model of transient polymers: Exploring the micromechanics of nonlinear viscoelasticity ā€” Soft Matter, 2021

Hui C.Y., Cui F., Zehnder A. and Vernerey F.J. ā€” Physically-motivated models of polymer networks with dynamic cross-links: comparative study and future outlook ā€” Proceedings of the Royal Society A 477(2255), 20210608, 2021

Lamont S. and Vernerey F.J. ā€” A Transient Microsphere Model for nonlinear viscoelasticity in dynamic polymer networks ā€” Journal of Applied Mechanics, 2021

Lamont S.C., Mulderrig J., Bouklas N. and Vernerey F.J. ā€” Rate-Dependent Damage Mechanics of Polymer Networks with Reversible Bond ā€” Macromolecules 54(23), 10801ā€“10813, 2021

Vernerey F.J. and Lamont S. ā€” Transient mechanics of slide-ring networks, a continuum model ā€” Journal of the Mechanics and Physics of Solids 146, 104212, 2021

Shen T. and Vernerey F.J. ā€” Rate-dependent Fracture of Transient Networks ā€” Journal of the Mechanics and Physics of Solids 143, 104028, 2020

Vernerey F.J., Brighenti R., Long R. and Shen T. ā€” Statistical Damage Mechanics of Polymer Networks ā€” Macromolecules 51(17), 6609ā€“6622, 2018

Vernerey F.J. ā€” Transient Response of Nonlinear Polymer Networks: a Kinetic Theory ā€” Journal of the Mechanics and Physics of Solids 115, 230ā€“247, 2018

Vernerey F.J., Long R. and Brighenti R. ā€” A Statistically-Based Continuum Theory for Polymers with Transient Networks ā€” Journal of the Mechanics and Physics of Solids 107, 1ā€“20, 2017

Brighenti R., Vernerey F.J. and Artoni F. ā€” Rate-dependent failure mechanism of Elastomers ā€” Journal of Mechanical Sciences 130, 448ā€“457, 2017

Collective Matter

Vernerey F.J. and Cox B. ā€” Fire Ant Rafts Offer Principles and Rules for Synthetic Programmable Morphing Matter ā€” Bioinspiration & Biomimetics, 2026

Bandil P., Geisler A., Leclech C., Barrasa-Ramos S., Barakat A.I. and Vernerey F.J. ā€” A Morphodynamic Network Model to Describe Cell Organization and Nematic Ordering in Monolayers ā€” Proceedings of the Royal Society A 482, 2330, 2026

Bandil P. and Vernerey F.J. ā€” Feedback between proliferation, intercalation, and growth mechanics in multicellular aggregates ā€” Mechanics of Soft Materials 8(1), 2, 2026

White Z.T. and Vernerey F.J. ā€” Dynamic self-organization in fire ant rafts underpins collective longevity and threat responsiveness ā€” Soft Matter, 2025

Wagner R., Lamont S.C., White Z. and Vernerey F.J. ā€” Catch bond kinetics are instrumental to cohesion of fire ant rafts under load ā€” PNAS 121(17), e2314772121, 2024

Abdelrahman M.K., Wagner R.J. et al. and Vernerey F.J. ā€” Material assembly from collective action of shape-changing polymers ā€” Nature Materials 1ā€“9, 2024

Bandil P. and Vernerey F.J. ā€” A morpho-viscoelasticity theory for growth in proliferating aggregates ā€” Biomechanics and Modeling in Mechanobiology 1ā€“22, 2024

Bandil P. and Vernerey F.J. ā€” Continuum theory for confluent cell monolayers: Interplay between cell growth, division, and intercalation ā€” Journal of the Mechanics and Physics of Solids 181, 105443, 2023

Mwaffo V. and Vernerey F.J. ā€” Analysis of Group of Fish Response to Startle Reaction ā€” Journal of Nonlinear Science 32(6), 96, 2022

Wagner R.J. and Vernerey F.J. ā€” Computational exploration of treadmilling and protrusion growth observed in fire ant rafts ā€” PLoS Computational Biology 18(2), e1009869, 2022

Wagner R., Such K., Hobbs E. and Vernerey F.J. ā€” Treadmilling and dynamic protrusions in fire ant rafts ā€” Journal of the Royal Society Interface 18(179), 20210213, 2021

Vernerey F.J., Benet E., Blue L. et al. ā€” Biological Active Matter Aggregates: Inspiration for Smart Colloidal materials ā€” Advances in Colloid and Interface Science 263, 38ā€“51, 2019

Vernerey F.J., Shen T., Sridhar S.L. and Wagner R. ā€” How do fire ants control the rheology of their aggregations? ā€” Journal of the Royal Society Interface 15, 20180642, 2018

Growth & Remodeling

Vernerey F.J., Sridhar S.L., Muralidharan A. and Bryant S. ā€” Mechanics of 3D cell-hydrogel interactions: Experiments, mechanisms and models ā€” Chemical Reviews, 2021

Ortega J.K.E., Mohan R., Munoz C., Sridhar S.L. and Vernerey F.J. ā€” Phycomyces: Helical growth during the phototropic and avoidance responses, and in stiff mutants ā€” Scientific Reports 11, 3653, 2021

Vernerey F.J. and Bryant S. ā€” The role of percolation in hydrogel-based tissue engineering and bioprinting ā€” Current Opinion in Biomedical Engineering 15, 68ā€“74, 2020

Sridhar S. and Vernerey F.J. ā€” Mechanics of transiently crosslinked nematic networks ā€” Journal of the Mechanics and Physics of Solids 141, 104021, 2020

Schneider M., Sridhar S.L., Vernerey F.J. and Bryant S. ā€” Spatiotemporal Neocartilage Growth in MMP-Sensitive PEG Hydrogels Under Dynamic Compressive Loading ā€” J. Mater. Chem. B 8, 2775ā€“2791, 2020

Crespo-Cuevas V., Ferguson V.L. and Vernerey F.J. ā€” Poroviscoelasto-plasticity of agarose-based hydrogels ā€” Soft Matter 19(4), 790ā€“806, 2023

Sridhar S.L., Ortega J.K. and Vernerey F.J. ā€” A Statistical Model of Expansive Growth in Plant and Fungal Cells: The Case of Phycomyces ā€” Biophysical Journal 115(12), 2428ā€“2442, 2018

Chu S., Shankar L.S., Akalp U., Skaalure S., Vernerey F.J. and Bryant S.J. ā€” Understanding the Spatiotemporal Degradation Behavior of Aggrecanase-Sensitive PEG Hydrogels for Cartilage Tissue Engineering ā€” Tissue Engineering Part A 23(15ā€“16), 795ā€“810, 2017

Sridhar L.S., Schneider M., Chu S., DeRoucy G., Bryant S. and Vernerey F.J. ā€” Heterogeneity is key to hydrogel-based cartilage tissue regeneration ā€” Soft Matter 13, 4841ā€“4855, 2017

Schneider M., Chu S., Sridhar S. et al. and Vernerey F.J. ā€” Local heterogeneities improve matrix connectivity in degradable and photoclickable PEG hydrogels for tissue engineering ā€” ACS Biomaterials Science and Engineering 3(10), 2480ā€“2492, 2017

Akalp U., Bryant S. and Vernerey F.J. ā€” Tuning Tissue Growth with Scaffold Degradation in Enzyme-Sensitive Hydrogels: a Mathematical Model ā€” Soft Matter 12, 7505ā€“7520, 2016

Vernerey F.J. ā€” A Mixture Approach to Investigate Interstitial Growth in Engineering Scaffolds ā€” Biomechanics and Modeling in Mechanobiology 15(2), 259ā€“278, 2016

Skaalure S., Akalp U., Vernerey F.J. and Bryant S. ā€” Tuning Reaction and Diffusion Mediated Degradation of Enzyme-Sensitive Hydrogels ā€” Advanced Healthcare Materials 5(4), 432ā€“438, 2016

Dhote V. and Vernerey F.J. ā€” Mathematical model of the role of degradation on matrix development in hydrogel scaffold ā€” Biomechanics and Modeling in Mechanobiology 13, 167ā€“183, 2014

Dhote V., Skaalure S., Akalp U., Robert J., Bryant S. and Vernerey F.J. ā€” On the role of hydrogel structure and degradation in controlling the transport of cell-secreted matrix molecules for engineered cartilage ā€” Journal of the Mechanical Behavior of Biomedical Materials 19, 61ā€“74, 2012

Vernerey F.J., Foucard L. and Farsad M. ā€” Bridging the scales to explore cellular adaptation and remodeling ā€” BionanoScience 1(3), 110ā€“115, 2011

Vernerey F.J., Greenwald E. and Bryant S. ā€” Triphasic mixture model of cell-mediated enzymatic degradation of hydrogels ā€” Computer Methods in Biomechanics and Biomedical Engineering 15(11), 1197ā€“1210, 2011

Soft Matter and Continuum Mechanics

Barbier L., Bulteau R., Rezaei B. et al. and Vernerey F.J. ā€” Non-invasive characterization of oocyte deformability in microconstrictions ā€” Science Advances, 2025

Lamont S., Fropier J., Abadie J. et al. and Vernerey F.J. ā€” Profiling oocytes with neural networks from images and mechanical data ā€” Journal of the Mechanical Behavior of Biomedical Materials 138, 105640, 2023

Brighenti R., Li Y. and Vernerey F.J. ā€” Smart polymers for advanced applications: a mechanical perspective review ā€” Frontiers in Materials, 2020

Benet E., Zhu H. and Vernerey F.J. ā€” Interplay of elastic instabilities and viscoelasticity in the finite deformation of thin membranes ā€” Physical Review E 99, 042502, 2019

Shen T., Benet E., Sridhar S.L. et al. and Vernerey F.J. ā€” Separating the contributions of zona pellucida and cytoplasm in the viscoelastic response of human oocytes ā€” Acta Biomaterialia 85, 253ā€“262, 2019

Shen T. and Vernerey F.J. ā€” On the blistering of thermo-sensitive hydrogel: the volume phase transition and mechanical instability ā€” Soft Matter 15, 5842ā€“5853, 2019

Shen T., Long R. and Vernerey F.J. ā€” Computational modeling of the large deformation and flow of viscoelastic polymers ā€” Computational Mechanics, 2018

Vernerey F.J. and Akalp U. ā€” Role of catch bonds in actomyosin mechanics and cell mechanosensitivity ā€” Physical Review E 94, 012403, 2016

Benet E. and Vernerey F.J. ā€” Mechanics and stability of vesicles and droplets in confined spaces ā€” Physical Review E 94(6), 062613, 2016

Foucard L. and Vernerey F.J. ā€” A Particle-based Moving Interface Method (PMIM) for modeling the large deformation of boundaries in soft matter systems ā€” International Journal for Numerical Methods in Engineering 107(11), 923ā€“946, 2016

Vernerey F.J. and Kabiri M. ā€” Adaptive Concurrent Multiscale Model for Fracture and Crack Propagation in Heterogeneous Media ā€” Computer Methods in Applied Mechanics and Engineering 276, 566ā€“588, 2014

Vernerey F.J. and Farsad M. ā€” A mathematical model of the coupled mechanisms of cell adhesion, contraction and spreading ā€” Journal of Mathematical Biology 68(4), 989ā€“1022, 2013

Vernerey F.J. and Chevalier T. ā€” A multiscale micro-continuum model to capture strain localization in composite materials ā€” International Journal of Multiscale Computational Engineering 10(5), 487ā€“501, 2012

Farsad M. and Vernerey F.J. ā€” An XFEM-based numerical strategy to model mechanical interactions between biological cells and a deformable substrate ā€” International Journal of Numerical Methods in Engineering 92(3), 238ā€“267, 2012

Vernerey F.J. and Farsad M. ā€” A Constrained Mixture Approach to Mechano-Sensing and Force Generation in Contractile Cells ā€” Journal of the Mechanical Behavior of Biomedical Materials 4(8), 1683ā€“1699, 2011

Vernerey F.J. and Farsad M. ā€” An Eulerian/XFEM formulation for the large deformation of cortical cell membrane ā€” Computer Methods in Biomechanics and Biomedical Engineering 14(5), 433ā€“445, 2011

Vernerey F.J., Liu W.K., Moran B. and Olson G.B. ā€” Multi-Length Scale Micromorphic Process Zone Model ā€” Computational Mechanics 44, 433ā€“445, 2009

Vernerey F.J., Liu W.K., Moran B. and Olson G.B. ā€” A Micromorphic Model for the Multiple Scale Failure of Heterogeneous Materials ā€” Journal of the Mechanics and Physics of Solids 56(4), 1320ā€“1347, 2008

Vernerey F.J., Liu W.K. and Moran B. ā€” Multi-Scale Micromorphic Theory for Hierarchical Materials ā€” Journal of the Mechanics and Physics of Solids 55(12), 2603ā€“2651, 2007