Aguilar Sánchez, María Teresa Autor
Stability and thermal properties study of metal chalcogenide-based nanofluids for concentrating solar power
- Martínez-Merino P.
- Alcántara R.
- Aguilar T.
- Gallardo J.
- Carrillo-Berdugo I.
- Gómez-Villarejo R.
- Rodríguez-Fernández M.
- Navas J.
Energies - 6/12/2019
- Cuartil SJR: Q2
- Factor Impacto JCR: 2,702 (2019)
- Impacto JCR a 5 años: 2,822
- Categorías JCR: ENERGY & FUELS
- Categorías SJR: Control and Optimization (Q2); Electrical and Electronic Engineering (Q2); Energy Engineering and Power Technology (Q2); Energy (miscellaneous) (Q2); Fuel Technology (Q2); Renewable Energy, Sustainability and the Environment (Q2)
- Scopus
- ORCID
- Web of Science
Are Nanofluids Suitable for Volumetric Absorption in PTC-CSP Plants? An Exemplified, Realistic Assessment with Characterized Metal–Oil Nanofluids
- Iván Carrillo-Berdugo
- Javier Sampalo-Guzmán
- Alejandro Domínguez-Núñez
- T. Aguilar
- Paloma Martínez-Merino
- Javier Navas
ENERGY and FUELS - 22/07/2022
10.1021/acs.energyfuels.2c01759
- Factor Impacto JCR: 5,3 (2022)
- CiteScore: 6,3 (2021)
- SJR: 0,822 (2021)
- SNIP: 1,087 (2021)
- Impacto JCR a 5 años: 4,6
- Categorías JCR: ENGINEERING, CHEMICAL
- Scopus
- ORCID
- Web of Science
Experimental and theoretical analysis of nanofluids based on high temperature-heat transfer fluid with enhanced thermal properties ∗
- Navas, J.
- Sánchez-Coronilla, A.
- Martín, E.I.
- Gómez-Villarejo, R.
- Teruel, M.
- Gallardo, J.J.
- Aguilar, T.
- Alcántara, R.
- Fernández-Lorenzo, C.
- Martín-Calleja, J.
EPJ Applied Physics - 1/4/2017
- Cuartil SJR: Q3
- Factor Impacto JCR: 0,802 (2017)
- CiteScore: 1,3 (2020)
- SJR: 0,261 (2017)
- SNIP: 0,342 (2017)
- Impacto JCR a 5 años: 0,726
- Categorías JCR: PHYSICS, APPLIED
- Categorías SJR: Condensed Matter Physics (Q3); Electronic, Optical and Magnetic Materials (Q3); Instrumentation (Q3)
- Scopus
- ORCID
- Web of Science
Enhanced thermophysical properties in spinel CuFe 2 O 4 ‐based nanofluids for concentrated solar power
- Aguilar T.
- Carrillo-Berdugo I.
- Alcántara R.
- Navas J.
International Journal of Energy Research - 25/03/2022
- Factor Impacto JCR: 4,672 (2021)
- CiteScore: 6,1 (2021)
- SJR: 0,811 (2021)
- SNIP: 1,116 (2021)
- Impacto JCR a 5 años: 4,533
- Categorías JCR: ENERGY & FUELS
- Scopus
- ORCID
- Web of Science
Preparation of Au nanoparticles in a non-polar medium: obtaining high-efficiency nanofluids for concentrating solar power. An experimental and theoretical perspective
- Gomez-Villarejo, Roberto
- Navas, Javier
- Martin, Elisa I.
- Sanchez-Coronilla, Antonio
- Aguilar, Teresa
- Jesus Gallardo, Juan
- De los Santos, Desire
- Alcantara, Rodrigo
- Fernandez-Lorenzo, Concha
- Martin-Calleja, Joaquin
Journal of Materials Chemistry A - 28/06/2017
10.1039/c7ta00986k Ver en origen
- Cuartil SJR: Q1
- Factor Impacto JCR: 9,931 (2017)
- CiteScore: 19,7 (2020)
- SJR: 3,488 (2017)
- SNIP: 1,546 (2017)
- Impacto JCR a 5 años: 9,531
- Categorías JCR: ENERGY & FUELS
- Categorías SJR: Chemistry (miscellaneous) (Q1); Materials Science (miscellaneous) (Q1); Renewable Energy, Sustainability and the Environment (Q1)
- Scopus
- ORCID
- Web of Science
MoS2 nanosheets vs. nanowires: preparation and a theoretical study of highly stable and efficient nanofluids for concentrating solar power
- Navas J.
- Martínez-Merino P.
- Sánchez-Coronilla A.
- Gallardo J.
- Alcántara R.
- Martín E.
- Piñero J.
- León J.
- Aguilar T.
- Toledo J.
- Fernández-Lorenzo C.
Journal of Materials Chemistry A - 1/1/2018
- Cuartil SJR: Q1
- Factor Impacto JCR: 10,733 (2018)
- CiteScore: 19,7 (2020)
- SJR: 3,372 (2018)
- SNIP: 1,6 (2018)
- Impacto JCR a 5 años: 10,172
- Categorías JCR: MATERIALS SCIENCE, MULTIDISCIPLINARY
- Categorías SJR: Chemistry (miscellaneous) (Q1); Materials Science (miscellaneous) (Q1); Renewable Energy, Sustainability and the Environment (Q1)
- Scopus
- ORCID
- Web of Science
Exfoliated graphene oxide-based nanofluids with enhanced thermal and optical properties for solar collectors in concentrating solar power
- Aguilar T.
- Sani E.
- Mercatelli L.
- Carrillo-Berdugo I.
- Torres E.
- Navas J.
Journal of Molecular Liquids - 15/5/2020
- Cuartil SJR: Q1
- Factor Impacto JCR: 6,165 (2020)
- CiteScore: 8,4 (2020)
- SJR: 0,929 (2020)
- SNIP: 1,42 (2020)
- Impacto JCR a 5 años: 5,642
- Categorías JCR: PHYSICS, ATOMIC, MOLECULAR & CHEMICAL
- Categorías SJR: Condensed Matter Physics (Q1); Materials Chemistry (Q1); Spectroscopy (Q1); Physical and Theoretical Chemistry (Q1); Atomic and Molecular Physics, and Optics (Q1); Electronic, Optical and Magnetic Materials (Q1)
- Scopus
- ORCID
- Web of Science
Improving the efficiency of the concentrating solar power plants using heat transfer nanofluids with gold nanoplates: An analysis from laboratory to industrial scale
- Carrillo-Berdugo I.
- Sampalo-Guzmán J.
- Jesús Gallardo J.
- Domínguez-Núñez A.
- Aguilar T.
- Martínez-Merino P.
- Navas J.
Journal of Molecular Liquids - 15/4/2023
- CiteScore: 9,7 (2022)
- SJR: 0,914 (2022)
- SNIP: 1,272 (2022)
Experimental analysis of water-based nanofluids using boron nitride nanotubes with improved thermal properties
- Gomez-Villarejo, Roberto
- Aguilar, Teresa
- Hamze, Samah
- Estelle, Patrice
- Navas, Javier
JOURNAL OF MOLECULAR LIQUIDS - 1/03/2019
10.1016/j.molliq.2018.12.093 Ver en origen
- Cuartil SJR: Q1
- Factor Impacto JCR: 5,065 (2019)
- CiteScore: 8,4 (2020)
- SJR: 0,883 (2019)
- SNIP: 1,4 (2019)
- Impacto JCR a 5 años: 4,766
- Categorías JCR: CHEMISTRY, PHYSICAL
- Categorías SJR: Atomic and Molecular Physics, and Optics (Q1); Condensed Matter Physics (Q1); Electronic, Optical and Magnetic Materials (Q1); Materials Chemistry (Q1); Physical and Theoretical Chemistry (Q1); Spectroscopy (Q1)
- Scopus
- ORCID
- Web of Science
Experimental and theoretical analysis of NiO nanofluids in presence of surfactants
- Sanchez-Coronilla, Antonio
- Martin, Elisa I.
- Navas, Javier
- Aguilar, Teresa
- Gomez-Villarejo, Roberto
- Alcantara, Rodrigo
- Carlos Pinero, Jose
- Fernandez-Lorenzo, Concha
JOURNAL OF MOLECULAR LIQUIDS - 1/02/2018
10.1016/j.molliq.2017.12.140 Ver en origen
- Cuartil SJR: Q1
- Factor Impacto JCR: 4,561 (2018)
- CiteScore: 8,4 (2020)
- SJR: 0,862 (2018)
- SNIP: 1,294 (2018)
- Impacto JCR a 5 años: 4,136
- Categorías JCR: CHEMISTRY, PHYSICAL
- Categorías SJR: Atomic and Molecular Physics, and Optics (Q1); Condensed Matter Physics (Q1); Electronic, Optical and Magnetic Materials (Q1); Materials Chemistry (Q1); Spectroscopy (Q1); Physical and Theoretical Chemistry (Q2)
- Scopus
- ORCID
- Web of Science
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Índice h
Scopus: 15
Web of Science: 17
Índice i10
Scopus: 19
Web of Science: 23
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Proyectos de investigación en la UAL
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Acrónimo P09-FQM-4938Desde: 3 de febrero de 2010Hasta: 3 de febrero de 2014Financiado por: JUNTAImporte de financiación: 207.923,69 EURRol: Investigador