FRANCISCO JAVIER
NAVAS PINEDA
Catedrático de Universidad
CONCEPCION
FERNANDEZ LORENZO
Investigadora en el periodo 1986-2023
Publicaciones en las que colabora con CONCEPCION FERNANDEZ LORENZO (64)
2020
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Enhanced thermophysical properties of the heat transfer fluids for concentrating solar power by using metal-based nanofluids: an experimental and theoretical overview
Nanofluids and their Engineering Applications (CRC PressTaylor & Francis Group), pp. 349-361
2019
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2D MoSe2-based nanofluids prepared by liquid phase exfoliation for heat transfer applications in concentrating solar power
Solar Energy Materials and Solar Cells, Vol. 200
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Enhanced Thermophysical Properties of the Heat Transfer Fluids for Concentrating Solar Power by Using Metal-Based Nanofluids: An Experimental and Theoretical Overview
Nanofluids and their Engineering Applications (CRC Press), pp. 349-361
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Influence of the Base Fluid and Surfactant Arrangement on the Enhancement of Heat Transfer in Metal–Nanofluids Used in Concentrating Solar Power Plants: A Molecular Level Perspective
Nanofluids and their Engineering Applications (CRC Press), pp. 389-404
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Influence of the base fluid and surfactant arrangement on the enhancement of the heat transfer in metal-nanofluids used in concentrating solar power plants: a molecular level perspective
Nanofluids and their Engineering Applications (CRC PressTaylor & Francis Group)
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Interface-inspired formulation and molecular-level perspectives on heat conduction and energy storage of nanofluids
Scientific Reports, Vol. 9, Núm. 1
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Intrinsic stability analysis of perovskite nanopowder with double and triple cation in a site, FAxMA(1-x)PbI3 and FAxCsyMA(1-x-y)PbI3
Materials Research Bulletin, Vol. 119
2018
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A solvothermal synthesis of TiO2 nanoparticles in a non-polar medium to prepare highly stable nanofluids with improved thermal properties
Nanomaterials, Vol. 8, Núm. 10
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Dramatically enhanced thermal properties for TiO2-based nanofluids for being used as heat transfer fluids in concentrating solar power plants
Renewable Energy, Vol. 119, pp. 809-819
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Experimental and theoretical analysis of NiO nanofluids in presence of surfactants
Journal of Molecular Liquids, Vol. 252, pp. 211-217
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Experimental characterization and theoretical modelling of Ag and Au-nanofluids: A comparative study of their thermal properties
Journal of Nanofluids, Vol. 7, Núm. 6, pp. 1059-1068
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Insights into the Photovoltaic and Photocatalytic Activity of Cu‐, Al‐, and Tm‐Doped TiO <sub>2</sub>
Emerging Photovoltaic Materials (Santosh K. Kurinec), pp. 165-194
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Investigation of enhanced thermal properties in NiO-based nanofluids for concentrating solar power applications: A molecular dynamics and experimental analysis
Applied Energy, Vol. 211, pp. 677-688
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MoS2 nanosheets vs. nanowires: preparation and a theoretical study of highly stable and efficient nanofluids for concentrating solar power
Journal of Materials Chemistry A, Vol. 6, Núm. 30, pp. 14919-14929
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MoS2/Cu/TiO2 nanoparticles: Synthesis, characterization and effect on photocatalytic decomposition of methylene blue in water under visible light
Water Science and Technology, Vol. 2017, Núm. 1, pp. 184-193
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Organic–Inorganic Hybrid Perovskite, CH <sub>3</sub> NH <sub>3</sub> PbI <sub>3</sub>: Modifications in Pb Sites from Experimental and Theoretical Perspectives
Emerging Photovoltaic Materials (Santosh K. Kurinec), pp. 357-400
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Revealing at the molecular level the role of the surfactant in the enhancement of the thermal properties of the gold nanofluid system used for concentrating solar power
Physical Chemistry Chemical Physics, Vol. 20, Núm. 4, pp. 2421-2430
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Towards the improvement of the global efficiency of concentrating solar power plants by using Pt-based nanofluids: The internal molecular structure effect
Applied Energy, Vol. 228, pp. 2262-2274
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Unraveling the role of the base fluid arrangement in metal-nanofluids used to enhance heat transfer in concentrating solar power plants
Journal of Molecular Liquids, Vol. 252, pp. 271-278
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Visible-Light-Enhanced Photocatalytic Activity of Totally Inorganic Halide-Based Perovskite
ChemistrySelect, Vol. 3, Núm. 36, pp. 10226-10235