| Improving the efficiency of the concentrating solar power plants using heat transfer nanofluids with gold nanoplates: An analysis from laboratory to industrial scale |
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| Multifunctional microcapsules based on ZnO and n-octadecane: From thermal energy storage to photocatalytic activity |
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| Synthesis and characterization of metal oxide-based microcapsules including phase change materials for energy storage applications |
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| Are Nanofluids Suitable for Volumetric Absorption in PTC-CSP Plants? An Exemplified, Realistic Assessment with Characterized Metal–Oil Nanofluids |
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| Enhanced thermophysical properties in spinel CuFe 2 O 4 ‐based nanofluids for concentrated solar power |
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| Exfoliated graphene oxide-based nanofluids with enhanced thermal and optical properties for solar collectors in concentrating solar power |
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| Improving stability and thermal properties of TiO<inf>2</inf>-based nanofluids for concentrating solar energy using two methods of preparation |
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| 2D MoSe<inf>2</inf>-based nanofluids prepared by liquid phase exfoliation for heat transfer applications in concentrating solar power |
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| Stability and thermal properties study of metal chalcogenide-based nanofluids for concentrating solar power |
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| Intrinsic stability analysis of perovskite nanopowder with double and triple cation in a site, FA<inf>x</inf>MA<inf>(1-x)</inf>PbI<inf>3</inf> and FA<inf>x</inf>Cs<inf>y</inf>MA<inf>(1-x-y)</inf>PbI<inf>3</inf> |
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| Synthesis of W-doped TiO2 by low-temperature hydrolysis: Effects of annealing temperature and doping content on the surface microstructure and photocatalytic activity |
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| Interface-inspired formulation and molecular-level perspectives on heat conduction and energy storage of nanofluids |
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| Experimental analysis of water-based nanofluids using boron nitride nanotubes with improved thermal properties |
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| Visible-Light-Enhanced Photocatalytic Activity of Totally Inorganic Halide-Based Perovskite |
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| Experimental characterization and theoretical modelling of Ag and Au-nanofluids: A comparative study of their thermal properties |
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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 |
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| A Solvothermal Synthesis of TiO2 Nanoparticles in a Non-Polar Medium to Prepare Highly Stable Nanofluids with Improved Thermal Properties |
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| Influence of Temperature and Doping Content on the Photocatalytic Activity in Visible Light of W-Doped TiO2 |
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| MoS2 nanosheets vs. nanowires: preparation and a theoretical study of highly stable and efficient nanofluids for concentrating solar power |
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| MoS2/Cu/TiO2 nanoparticles: synthesis, characterization and effect on photocatalytic decomposition of methylene blue in water under visible light |
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| Dramatically enhanced thermal properties for TiO<inf>2</inf>-based nanofluids for being used as heat transfer fluids in concentrating solar power plants |
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| Investigation of enhanced thermal properties in NiO-based nanofluids for concentrating solar power applications: A molecular dynamics and experimental analysis |
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| Experimental and theoretical analysis of NiO nanofluids in presence of surfactants |
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| Experimental and theoretical analysis of nanofluids based on high temperature-heat transfer fluid with enhanced thermal properties ∗ |
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| Preparation of Au nanoparticles in a non-polar medium: obtaining high-efficiency nanofluids for concentrating solar power. An experimental and theoretical perspective |
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| Ag-based nanofluidic system to enhance heat transfer fluids for concentrating solar power: Nano-level insights |
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| The Role of Surfactants in the Stability of NiO Nanofluids: An Experimental and DFT Study |
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| On the enhancement of heat transfer fluid for concentrating solar power using Cu and Ni nanofluids: An experimental and molecular dynamics study |
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| New insights into organic-inorganic hybrid perovskite CH3NH3PbI3 nanoparticles. An experimental and theoretical study of doping in Pb2+ sites with Sn2+, Sr2+, Cd2+ and Ca2+ |
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| Surface thulium-doped TiO2 nanoparticles used as photoelectrodes in dye-sensitized solar cells: improving the open-circuit voltage |
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| Study of thulium doping effect and enhancement of photocatalytic activity of rutile TiO<inf>2</inf> nanoparticles |
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| TiO<inf>2</inf> and pyrochlore Tm<inf>2</inf>Ti<inf>2</inf>O<inf>7</inf> based semiconductor as a photoelectrode for dye-sensitized solar cells |
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| Incorporation of Al-(hydr)oxide species onto the surface of TiO<inf>2</inf> nanoparticles: Improving the open-circuit voltage in dye-sensitized solar cells |
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| Tm-doped TiO2 and Tm2Ti2O7 pyrochlore nanoparticles: enhancing the photocatalytic activity of rutile with a pyrochlore phase |
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| Experimental and theoretical study of the electronic properties of Cu-doped anatase TiO2 |
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| Thermo-selective TmxTi1-xO2-x/2 nanoparticles: from Tm-doped anatase TiO2 to a rutile/pyrochlore Tm2Ti2O7 mixture. An experimental and theoretical study with a photocatalytic application |
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| Electronic and Structural Properties of Highly Aluminum Ion Doped TiO2 Nanoparticles: A Combined Experimental and Theoretical Study |
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| Cu(II)-Doped TiO<inf>2</inf> nanoparticles as photoelectrode in dye-sensitized solar cells: Improvement of open-circuit voltage and a light scattering effect |
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| A route for the synthesis of Cu-doped TiO2 nanoparticles with a very low band gap |
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| On-line thermal dependence study of the main solar cell electrical photoconversion parameters using low thermal emission lamps |
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| Improving open-circuit voltage in DSSCs using Cu-doped TiO2 as a semiconductor |
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