A complete list of publications of our group members
Publication covers
2023
J. Tajuelo, O. Martinez-Cano, J. R. Morillas, J. Yang and J. de Vicente. (2023). Generation of Synchronized High-frequency Triaxial Magnetic Fields using Fractal Capacitor Banks. Physical Review Applied. (link) ✶
M. Terkel, R. Wright and J. de Vicente. (2023). Magnetorheology in Unsteady Fields: from Uniaxial DC to Rotating AC Fields. Journal of Rheology. Featured paper. Cover paper. (link) ✶
K. Cerdan, J. Brancart, G. Camacho, J. de Vicente and P. Van Puyvelde. (2023). Self-healing Magnetorheological Elastomers Based on Thermoreversible Diels-Alder Networks. Smart Materials and Structures. (link) ✶
G. Camacho, A. Rodríguez-Barroso, O. Martínez-Cano, Jose R. Morillas, P. Tierno and J. de Vicente. (2023). Experimental Realization of a Colloidal Ratchet Effect in a Non-Newtonian Fluid. Physical Review Applied. (link) ✶
J. A. Ruiz-Lopez, S. S. Prasanna Kumar, A. Vazquez-Quesada, J. de Vicente and M. Ellero. (2023). Tribological Variable-friction Coefficient Models for the Simulation of Dense Suspensions of Rough Polydisperse Particles. Journal of Rheology. (link) ✶
E. Romero-Ben, M. C. Castillejos, C. Rosales-Barrios, M. Exposito Galvez, P. Ruda, P. M. Castillo, S. Nardecchia, J. de Vicente and N. Khiar. (2023). Divergent Approach to Nanoscale Glycomicelles and Photo-Responsive Supramolecular Glycogels. Implications for Drug Delivery and Photoswitching Lectin Affinity. Journal of Materials Chemistry B. (link) ✶
L. Sabio, J. M. Dominguez-Vera, J. de Vicente and J. M. Delgado-Lopez. (2023). Living Cellulose Materials with Tunable Viscoelasticity through Probiotic Proliferation. ACS Applied Bio Materials. (link) ✶
O. Martinez-Cano, J. R. Morillas, M. Cvek, J. Ramirez and J. de Vicente. (2023). High-speed Videomicroscopy of Sheared Carbonyl Iron Suspensions. Smart Materials and Structures. Smart Materials and Structures. (link) ✶
A. Rodríguez-Barroso, G. Camacho, O. Martinez-Cano, J. R. Morillas, and J. de Vicente. (2023). Magnetophoretic Force and Homogeneity Optimization in Multiplexed Magnetic Tweezers for Microrheometry Applications. Measurement. (link) ✶
A. Rodríguez-Barroso, M. Khan, V. Santamaria, E. Sammarchi, R. Saltaren and J. Agrawal. (2023). Simulating Underwater Human Motions on the Ground With a Cable-Driven Robotic Platform. IEEE Transactions on Robotics. (link) ✶
2022
Terkel M., Tajuelo J., & de Vicente J. (2022). Enhancing magnetorheology with precession magnetic fields. Journal of Rheology. (link) ✶
Olivares M.L., Costabel M.L., Zorrilla S.E., & de Vicente J. (2022). Calcium-induced skim milk gels: Effect of milk powder concentration and pH on tribo-rheological characteristics and gel physico-chemical properties. Food Hydrocolloids. (link) ✶
Cuadrado C.F., Díaz/Barrios A., Campana K.O., Cardona Romani E., Quiroz F.J., Nardecchia S., Debut A., Vizuete K., Niebieskikwiat D., Ávila C.E., Salazar M.A., Garzón Romero C., Blasco Zúñiga A.A., Rivera M.R., & Romero M.P. (2022). Broad-spectrum antimicrobial ZnMintPc encapsulated in magnetic-nanocomposites with Graphene Oxide MWCNTs based on bimodal action of Photodynamic and Photothermal effect. Pharmaceutics. (link) ✶
Sahoo R., Ussa-Aldana P., Lancon D., Rondelez F., Morillas J.R., Hidalgo-Alvarez R., & de Vicente J. (2022). Design of smart lubricants using the inverse ferrofluid approach. Tribology International. (link) ✶
2021
Camacho G., Morillas J.R., & de Vicente J. (2021). Enhancing magnetorheology through the directed self-assembly under toggled magnetic fields in saturation. Smart Materials and Structures. (link) ✶
Nardecchia S., Chocarro-Wrona C., Sánchez-Moreno P., Zambrano-Marín J.R., Marchal J.A., & de Vicente J. (2021). Living magnetorheological composites: from the synthesis to the in vitro characterization. Smart Materials and Structures. (link) ✶
Morillas J.R., Carreón-González E., & de Vicente J. (2021). Fabrication of strong magnetic micron-sized supraparticles with anisotropic magnetic properties for magnetorheology. Soft Matter. (link) ✶
Antich C., Jiménez G., de Vicente J., López-Ruiz E., Chocarro-Wrona C., Griñán-Lisón C., Carrillo E., Montañez E., & Marchal J.A. (2021). Development of a biomimetic hydrogel based on predifferentiated mesenchymal stem-cell-derived ECM for cartilage tissue engineering. Advanced Healthcare Materials. (link) ✶
Nardecchia S., Jiménez A., Morillas J.R., & de Vicente, J. (2021) Synthesis and rheological properties of 3D structured self-healing magnetic hydrogels. Polymer. (link) ✶
Martínez-Moreno D., Jiménez G., Chocarro-Wrona C., Carrillo E., Montañez E., Galocha-León C., Clares-Naveros B., Gálvez-Martín P., Rus G., de Vicente J., & Marchal J.A. (2021). Pore geometry influences growth and cell adhesion of infrapatellar mesenchymal stem cells in biofabricated 3D thermoplastic scaffolds useful for cartilage tissue engineering. Materials Science and Engineering: C. (link) ✶
Funes, A., Álvarez-Manzaneda, I., Arco, A.D., de Vicente, J., & de Vicente, I. (2021). Evaluating the effect of CFH-12® and Phoslock® on phosphorus dynamics during anoxia and resuspension in shallow eutrophic lakes. Environmental Pollution. (link) ✶
Terkel M., & de Vicente J. (2021). Magnetorheology of exotic magnetic mesostructures generated under triaxial unsteady magnetic fields. Smart Materials and Structures. Special Issue Article. (link) ✶
Chocarro-Wrona C., de Vicente J., Antich C., Jiménez G., Martínez-Moreno D., Carrillo E., Montañez E., Gálvez-Martín P., Perán M., López-Ruiz E., & Marchal J.A. (2021). Validation of the 1,4-butanediol thermoplastic polyurethane as a novel material for 3D bioprinting applications. Bioengineering & Translational Medicine. (link) ✶
2020
Morillas J.R., & de Vicente J. (2020). Magnetorheology: a review. Soft Matter. Invited review paper. Back cover paper. (link) ✶
Antich C., de Vicente J., Jiménez G., Chocarro-Wrona C., Carrillo E., Montañez E., Gálvez-Martín P., & Marchal J.A. (2020). Bio-inspired hydrogel composed of hyaluronic acid and alginate as a potential bioink for 3D bioprinting of articular cartilage engineering constructs. Acta Biomaterialia. (link) ✶
Vieira I.R.S., Costa L.D.F.O., Miranda G.D.S., Silva A.A.D., Nardecchia S., Monteiro M.S.D.S.D.B., Freitas Z.M.F.D., Delpech M.C. & Ricci-Júnior E. (2020). Transdermal progesterone delivery study from waterbone poly(urethane-urea)s nanocomposites films based on montmorillonite clay and reduced graphene oxide. Journal of Drug Delivery Science and Technology. (link) ✶
Vieira I.R.S., Costa L.F.O., Miranda G.S., Nardecchia S., Monteiro M.S.S.B., Ricci-Júnior E. & Delpech M.C. (2020). Waterborne poly(urethane-urea)s nanocomposites reinforced with clay, reduced graphene oxide and respective hybrids: synthesis, stability and structural characterization. Journal of Polymers and the Environment. (link) ✶
2019
Morillas J.R., & de Vicente J. (2019). On the Importance of Interchain Interaction and Rotational Contribution to the Computation of the Yield Stress in Magnetorheology. Smart Materials and Structures. (link) ✶
Shahrivar K., Ortigosa-Moya E.M., Hidalgo-Alvarez R., & de Vicente J. (2019). Isoviscous elastohydrodynamic lubrication of inelastic Non-Newtonian fluids. Tribology International. (link) ✶
Palla C., de Vicente J., Carrín M.E., & Gálvez Ruiz M.J. (2019). Effects of cooling temperature profiles on the monoglycerides oleogel properties: A rheo-microscopy study. Food Research International. (link) ✶
Ortigosa-Moya E.M., Shahrivar K., Hidalgo-Álvarez R., & de Vicente J. (2019). Soft lubrication of cornstarch-based shear-thickening fluids. Smart Materials and Structures. (link) ✶
Shahrivar K., Morillas J.R., Luengo Y., Gavilan H., Morales P., Bierwisch C., & de Vicente J. (2019). Rheological behavior of magnetic colloids in the borderline between ferrofluids and magnetorheological fluids. Journal of Rheology. Cover paper. (link) ✶
Morillas J.R., & de Vicente J. (2019). Magnetorheology in saturating fields. Physical Review E. EPL Poster Prize at IBEREO 2019. (link) ✶
Santos A.G.D., Cabello F.J.M.-R., Vereda F., Cabrerizo-Vilchez M.A., & Rodriguez-Valverde M.A. (2019). Oscillating magnetic drop: How to grade water-repellent surfaces. Coatings. (link) ✶
Rosa W.O., Vereda F., & de Vicente J. (2019). Tribological behavior of glycerol/water-based magnetorheological fluids in PMMA point contacts. Frontiers in Materials. (link) ✶
Morillas J.R., & de Vicente J. (2019). On the yield stress in magnetorheological fluids: A direct comparison between 3D simulations and experiments. Composites Part B: Engineering. (link) ✶
Olivares M.L., Shahrivar K., & de Vicente J. (2019). Soft lubrication characteristics of microparticulated whey proteins used as fat replacers in dairy systems. Journal of Food Engineering. (link) ✶
Nardecchia S., Sánchez-Moreno P., de Vicente J., Marchal J.A., & Boulaiz H. (2019). Clinical trials of thermosensitive nanomaterials: An overview. Nanomaterials. (link) ✶
Morillas J.R., & de Vicente J. (2019). DEM and FEM simulations in magnetorheology: Aggregation kinetics and yield stress. Magnetorheological Materials and their Applications. (link) ✶
Morillas J.R., & de Vicente J. (2019). Yielding behavior of model magnetorheological fluids. Soft Matter. Recommended paper. Back cover paper. (link) ✶
2018
Sánchez-Moreno P., de Vicente J., Nardecchia S., Marchal J.A., & Boulaiz H. (2018). Thermo-Sensitive Nanomaterials: Recent Advance in Synthesis and Biomedical Applications. Nanomaterials. Invited review paper. (link) ✶
Morillas J.R., Yang J., & de Vicente J. (2018). Double-gap plate-plate magnetorheology. Journal of Rheology. Featured paper. (link) ✶
Morillas J.R., Bombard A.J.F., & de Vicente J. (2018). Magnetorheology of bimodal fluids in the single-multidomain limit. Industrial and Engineering Chemistry Research. (link) ✶
Funes A., Martínez F.J., Álvarez-Manzaneda I., Conde-Porcuna J.M., de Vicente J., Guerrero F., de Vicente I. (2018). Determining major factors controlling phosphorus removal by promising adsorbents used for lake restoration: A linear mixed model approach. Water Research. (link) ✶
Morillas J.R., Bombard A.J.F., & de Vicente J. (2018). Enhancing magnetorheological effect using bimodal suspensions in the single-multidomain limit. Smart Materials and Structures. (link) ✶
Yang J., Vereda F., Morillas J.R., & de Vicente J. (2018). Ternary solid-ferrofluid-liquid magnetorheological fluids. Smart Materials and Structures. (link) ✶
2017
Shahrivar K., Carréon-González E., & de Vicente J. (2017). Effect of confinement on the aggregation kinetics of diluite magnetorheological fluids. Smart Materials and Structures. (link) ✶
Ruiz-López J.A., Wang Z.W., Hidalgo-Alvarez R., & de Vicente J. (2017). Simulations of model magnetorheological fluids in squeeze flow mode. Journal of Rheology. Invited paper for special issue. (link) ✶
Shahrivar K., Carréon-González E., & de Vicente J. (2017). On the importance of carrier fluid viscosity and particle–wall interactions in magnetic-guided assembly of quasi-2D systems. Microfluidics and Nanofluidics. (link) ✶
Vereda F., de Vicente J., & Hidalgo-Alvarez R. (2017). Effect of surface roughness on the magnetic interaction between micron-sized ferromagnetic particles: Finite element method calculations. Journal of Intelligent Material Systems and Structures. (link) ✶
Segovia-Gutiérrez J.P., de Vicente J., Puertas A.M., & Hidalgo-Alvarez R. (2017). Describing magnetorheology under a colloidal glass approach. Physical Review E. Selected to be displayed on PRE web site as part of "kaleidoscope". (link) ✶
Ruiz-López J.A., Hidalgo-Alvarez R., & de Vicente J. (2017). Towards a universal master curve in magnetorheology. Smart Materials and Structures. (link) ✶
Funes A., del Arco A., Álvarez-Manzaneda I., de Vicente J., & de Vicente I. (2017). A microcosm experiment to determine the consequences of magnetic microparticles application on water quality and sediment phosphorus pools. Science of The Total Environment. (link) ✶
Shahrivar K., Carreón-González E., Morillas J.R., & de Vicente J. (2017). Aggregation kinetics of carbonyl iron based magnetic suspensions in 2D. Soft Matter. (link) ✶
Funes A., de Vicente J., & de Vicente I. (2017). Synthesis and characterization of magnetic chitosan microspheres as low-density and low-biotoxicity adsorbents for lake restoration. Chemosphere. (link) ✶
