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Update Data 
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santiago.gomez@urjc.es |
| Last update: 07/02/2024 | |
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| Name: |
| Santiago |
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Surname: |
Gómez-Ruiz |
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Institution: |
Universidad Rey Juan Carlos |
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Type of Institution: |
University |
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ORCID number: |
https://orcid.org/0000-0001-9538-8359
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Google Scholar: |
https://scholar.google.com/citations?user=Santiago%20Gomez-Ruiz&user=jgwSvXkAAAAJ
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Publons: |
E-4863-2012
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Research Gate: |
santiago.gomez
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Country: |
Spain
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WEB address: |
https://gestion2.urjc.es/pdi/ver/santiago.gomez |
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Working groups of interest |
| - | WG2 - Health | | - | WG4 - Environment |
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| Keywords |
| - | | Environment | | - | | Health | | - | | Mesopores | | - | | Oxides | | - | | Porous Semiconductors | | - | | Smart Functional Surfaces | | - | | Technology |
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Research field (Free keywords) |
Coordination chemistry; Catalysis; Medicinal chemistry, drug synthesis; New materials: oxides, alloys,
composite, organic-inorganic hybrid; Inorganic Chemistry; Porous materials |
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Scientific expertise |
Team “COMET-NANO” works on research topics focused on “Porous nanomaterials with therapeutic activity” and “Advanced materials with photocatalytic applications in energy and environment” publishing more than 125 articles in journals of high-impact. The team is internationally recognized (PI included in the list of Top 2%-researchers published by Stanford University in 2021) and has been invited to ca. 40 plenary,
invited or keynote lectures in conferences and more than 45 lectures in different top universities and research centres worldwide. Team´s research is recognized in several research projects granted developing novel insights on the anticancer action of porous nanosystems as theranostic alternatives for treatment of triple-negative breast cancer , potential therapeutic agents against COVID-19 or other viruses and versatile ultrareactive porous photocatalytic materials, used in reactions of industrial, environmental and energy interest (ROS production for water decontamination, H2 production or waste-to-energy technologies and activation of N2 and CO2. |
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Capabilities |
Our team is motivated to contribute to the internationalization of our group and to improve the networking opportunities of the team, giving an added value to the current COST action proposing and designing different approaches for achieving new results in the fields of health and environment using oxides or semiconductor porous systems with photoactive properties. Our background in the field, our connection to companies and our vision of the field could be of high interest for the network.
Our team can be involved in the design of novel powder-based systems with different applications, all the synthetic steps, functionalization, characterization, etc. associated with the design and preparation of porous nanomaterials with health / therapeutic / theranostic applications could be carried out there (screening on some biological properties are also possible). In addition, our team is ready for undertaking synthetic work related with the preparation of novel porous oxides with photocatalytic and photoactivatable potential in environment and energy in powder or suspension state. In addition, the design of novel alternative porous or layered materials for the semiconductor industry of memristors. |
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Relevant publications
(3 max.) |
| Design of Mesoporous Silica Nanoparticles for the Treatment of Amyotrophic Lateral Sclerosis (ALS) with a Therapeutic Cocktail Based on Leptin and Pioglitazone (2022) ACS Biomaterials Science & Engineering 10.1021/acsbiomaterials.2c00865 |
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| Melatonin Derivative-Conjugated Formulations of Pd(II) and Pt(II) Thiazoline Complexes on Mesoporous Silica to Enhance Cytotoxicity and Apoptosis against HeLa Cells (2024) Pharmaceutics 10.3390/pharmaceutics16010092 |
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| Crystalline F-doped titanium dioxide nanoparticles decorated with graphene quantum dots for improving the photodegradation of water pollutants (2023) Journal of Photochemistry and Photobiology A: Chemistry 10.1016/j.jphotochem.2023.114875 |
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Projects
(2 max.) |
| 1. Project Title: ROS-generating agents based on multiFUNctional nanostructured materials for environmental and therapeutic applications (PID2022-136417NB-I00) Funding Entity: Ministerio de Ciencia e Innovación / AEI |
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| 2. Project Title: Versatile multifunctional and reusable nanosystems for lowering emissions by capture and valorIzation of carbon dioxide and nitrogen (VOLUPIA) (TED2021-132175B-I00) Funding Entity: Ministerio de Ciencia e Innovación / AEI |
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