What is she best known for?
The fields of study she is best known for:
- Organic chemistry
- Polymer
- Biochemistry
Her primary areas of investigation include Chemical engineering, Mesoporous silica, Drug delivery, Mineralogy and Simulated body fluid.
The study incorporates disciplines such as Porosity, Targeted drug delivery and Aerosol in addition to Chemical engineering.
Her studies examine the connections between Porosity and genetics, as well as such issues in Copolymer, with regards to Crystallization, Chemical composition, Bone tissue, Matrix and Solvent.
Her Drug delivery study combines topics from a wide range of disciplines, such as Chromatography, Antibacterial agent and Surface modification.
She studies Apatite which is a part of Mineralogy.
Her Simulated body fluid research focuses on Energy-dispersive X-ray spectroscopy and how it relates to Fourier transform infrared spectroscopy.
Her most cited work include:
- Mesoporous SBA-15 HPLC evaluation for controlled gentamicin drug delivery. (329 citations)
- Revisiting silica based ordered mesoporous materials: medical applications (276 citations)
- Functionalization of mesoporous materials with long alkyl chains as a strategy for controlling drug delivery pattern (271 citations)
What are the main themes of her work throughout her whole career to date?
Isabel Izquierdo-Barba focuses on Chemical engineering, Nanotechnology, Mineralogy, Simulated body fluid and Apatite.
The various areas that Isabel Izquierdo-Barba examines in her Chemical engineering study include Porosity, Calcium, Adsorption and Aqueous solution.
In her study, which falls under the umbrella issue of Porosity, Chemical composition is strongly linked to Copolymer.
Her work in the fields of Nanotechnology, such as Drug delivery, Nanostructure and Nanostructured materials, intersects with other areas such as Mesoporous silica.
Her work in Mineralogy covers topics such as Bioactive glass which are related to areas like Amorphous solid.
In her work, Calcium oxide and Biomaterial is strongly intertwined with Crystallization, which is a subfield of Apatite.
She most often published in these fields:
- Chemical engineering (39.29%)
- Nanotechnology (24.11%)
- Mineralogy (25.89%)
What were the highlights of her more recent work (between 2015-2021)?
- Nanocarriers (8.93%)
- Nanotechnology (24.11%)
- Mesoporous silica (15.18%)
In recent papers she was focusing on the following fields of study:
The scientist’s investigation covers issues in Nanocarriers, Nanotechnology, Mesoporous silica, Nanoparticle and Biofilm.
Her research in Nanocarriers intersects with topics in Antimicrobial and Nanomedicine.
Her Drug delivery study, which is part of a larger body of work in Nanotechnology, is frequently linked to Biocompatible material, bridging the gap between disciplines.
Her Nanoparticle research is multidisciplinary, relying on both Combinatorial chemistry, Nuclear chemistry and Amine gas treating.
As part of the same scientific family, Isabel Izquierdo-Barba usually focuses on Nanomaterials, concentrating on Zinc and intersecting with Chemical engineering.
Her work on Silicate, Bioactive glass and Apatite as part of general Chemical engineering research is frequently linked to Spectroscopy, bridging the gap between disciplines.
Between 2015 and 2021, her most popular works were:
- Mesoporous Silica Nanoparticles for Drug Delivery: Current Insights (151 citations)
- Tuning mesoporous silica dissolution in physiological environments: a review (52 citations)
- Advances in mesoporous silica nanoparticles for targeted stimuli-responsive drug delivery: an update. (47 citations)
In her most recent research, the most cited papers focused on:
- Organic chemistry
- Polymer
- Biochemistry
Isabel Izquierdo-Barba mainly focuses on Nanotechnology, Drug delivery, Mesoporous silica, Antimicrobial and Nanoparticle.
Her Nanotechnology research includes themes of Side effect, Stimuli responsive and Dissolution.
Her work deals with themes such as Biocompatibility and Biofilm, which intersect with Antimicrobial.
Her Biocompatibility research is multidisciplinary, incorporating elements of Bone regeneration, Scaffold and Bone Infection.
Her Biofilm study incorporates themes from Effective treatment, Nanomaterials, Antibacterial agent and Antibiotic resistance.
The study incorporates disciplines such as Combinatorial chemistry and In vitro degradation in addition to Nanocarriers.
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