TEC05-Física de Interfases y Sistemas Coloidales
Terapias Avanzadas y Tecnologías Biomédicas / IBS-TEC05
La investigación del grupo abarca una amplia gama de actividades interdisciplinares basadas siempre en un enfoque desde el punto de vista de la Ciencia y Tecnología de Materiales, con un gran número de colaboradores nacionales e internacionales. Más específicamente, los temas de investigación de los últimos cinco años comprenden las siguientes líneas.
Líneas de investigación
- Desarrollo e implementación de electrodos capacitivos para extracción de energía por gradiente de salinidad (energía azul) y desionización capacitiva
- Diseño y construcción de amortiguadores magnetorreológicos
- Fenómenos electrocinéticos y espectroscopia de birrefringencia eléctrica
- Manipulación de micro y nanopartículas mediante trampas ópticas y de iones
- Preparación y caracterización mecánica de andamios bioactivos para ingeniería de tejidos
- Reología de fluidos sensibles al campo (ferrofluidos, fluidos electrorreológicos y fluidos magnetorreológicos)
- Síntesis y evaluación de vehículos de transporte de fármacos basados en nanopartículas y nanomateriales para hipertermia magnética
Palabras clave
Reología; nanopartículas magnéticas; energía azul; desionización; ingeniería tisular; fluidos magnéticos; hiperemia magnética; magnetorreología; electrocinética; birrefringencia eléctrica; fluidos; biomateriales; coloides; interfases.
MARINA LAZARO CALLEJON
ANA BELEN BONHOME ESPINOSA
FRANCISCO JESUS VAZQUEZ PEREZ
LAURA RODRIGUEZ ARCO
ALBERTO LEON CECILIA
MODESTO TORCUATO LOPEZ LOPEZ
MARIA DEL CARMEN MAÑAS TORRES
LUIS ALVAREZ DE CIENFUEGOS RODRIGUEZ
ANGEL VICENTE DELGADO MORA
JUAN DE DIOS GARCIA LOPEZ-DURAN
CRISTINA GILA VILCHEZ
GUILLERMO RAMON IGLESIAS SALTO
A Macrocycle Based on a Heptagon-Containing Hexa-peri-hexabenzocoronene
ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 2020;
FI:12,959; D1
AC Electrokinetics of Salt-Free Multilayered Polymer-Grafted Particles
POLYMERS, 2020;
FI:3,426; Q1
An Enantiopure Propeller-Like Trityl-Brominated Radical: Bringing Together a High Racemization Barrier and an Efficient Circularly Polarized Luminescent Magnetic Emitter
CHEMISTRY-A EUROPEAN JOURNAL, 2020;
FI:4,857; Q1
Analysis of the mechanical response of asphalt materials manufactured with metallic fibres under the effect of magnetic fields
SMART MATERIALS AND STRUCTURES, 2020;
FI:3,613; Q1
Biomimetic Magnetite Nanoparticles as Targeted Drug Nanocarriers and Mediators of Hyperthermia in an Experimental Cancer Model
CANCERS, 2020;
FI:6,126; Q1
Enhanced Stability against Radiation Damage of Lysozyme Crystals Grown in Fmoc-CF Hydrogels
CRYSTAL GROWTH & DESIGN, 2019;
FI:4,153; D1
Catalytic and Electron Conducting Carbon Nanotube-Reinforced Lysozyme Crystals
ADVANCED FUNCTIONAL MATERIALS, 2019;
FI:15,621; D1
Soft electrodes in water desalination: application to multi-valent ions
ENVIRONMENTAL SCIENCE-WATER RESEARCH & TECHNOLOGY, 2019;
FI:4,195; D1
Enhancement of Magnetic Hyperthermia by Mixing Synthetic Inorganic and Biomimetic Magnetic Nanoparticles
PHARMACEUTICS, 2019;
FI:4,773; D1
Hyperthermia-Triggered Doxorubicin Release from Polymer-Coated Magnetic Nanorods
PHARMACEUTICS, 2019;
FI:4,773; D1
Sulfoxide‐Induced Homochiral Folding of ortho‐Phenylene Ethynylenes (o‐OPEs) by Silver(I) Templating: Structure and Chiroptical Properties
Chemistry: European Journal, 2018;
FI:5,16; Q1
Pyrene-Containing ortho-Oligo(phenylene)ethynylene Foldamer as a Ratiometric Probe Based on Circularly Polarized Luminescence
The Journal of organic chemistry, 2018;
FI:4,805; Q1
Determination of the size distribution of non-spherical nanoparticles by electric birefringence-based methods
SCIENTIFIC REPORTS, 2018;
FI:4,122; Q1
Multiionic effects on the capacitance of porous electrodes
PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 2018;
FI:3,906; Q1
Aggregation-induced emission of [3] cumulenes functionalized with heptagon-containing polyphenylenes
ChemCommun, 2018;
FI:6,29; Q1
Use of Soft Electrodes in Capacitive Deionization of Solutions
ENVIRONMENTAL SCIENCE & TECHNOLOGY, 2017;
FI:6,198; D1
Interaction between Ideal Neutral Nanogels: A Monte Carlo Simulation Study
MACROMOLECULES, 2017;
FI:5,835; D1
Kinetics of doublet formation in bicomponent magnetic suspensions: The role of the magnetic permeability anisotropy
PHYSICAL REVIEW E, 2017;
FI:2,366; D1
Shear elasticity of isotropic magnetic gels
PHYSICAL REVIEW E, 2017;
FI:2,366; D1
Versatile synthesis and enlargement of functionalized distorted heptagon-containing nanographenes
Chemical Science, 2017;
FI:8,668; D1
N-like rheograms of concentrated suspensions of magnetic particles
JOURNAL OF RHEOLOGY, 2016;
FI:3,358; D1
Stacking of capacitive cells for electrical energy production by salinity exchange
JOURNAL OF POWER SOURCES, 2016;
FI:6,333; D1
N-like rheograms of concentrated suspensions of magnetic particles
JOURNAL OF RHEOLOGY, 2016;
FI:2,916; D1
Polyelectrolyte-versus membrane-coated electrodes for energy production by capmix salinity exchange methods
JOURNAL OF POWER SOURCES, 2016;
FI:6,333; D1
Biocompatible magnetic core-shell nanocomposites for engineered magnetic tissues
NANOSCALE, 2016;
FI:7,76; D1
Role of Steric Interactions on the Ionic Permeation Inside Charged Microgels: Theory and Simulations
MACROMOLECULES, 2015;
FI:5,8; D1
Preparation of multi-functionalized Fe3O4/Au nanoparticles for medical purposes
COLLOIDS AND SURFACES B-BIOINTERFACES, 2015;
FI:4,152; Q1
Generation and Characterization of Novel Magnetic Field-Responsive Biomaterials
PLOS ONE, 2015;
FI:3,234; Q1
Dynamic and wear study of an extremely bidisperse magnetorheological fluid
SMART MATERIALS AND STRUCTURES, 2015;
FI:2,502; Q1
Dynamics of magnetic assembly of binary colloidal structures
EPL, 2015;
FI:2,095; Q1
HIDROGELES MAGNÉTICOS SUPRAMOLECULARES PARA MEDICINA REGENERATIVA
Financiador: MINISTERIO DE ECONOMIA, INDUSTRIA Y COMPETITIVIDAD
Número de expediente: FIS2017-85954-R
Tiempo de ejecución: 01/01/2018 - 31/12/2021
IP: MODESTO TORCUATO LOPEZ LOPEZ
