Results 191 to 200 of about 20,315 (244)
Functionality of hybrid nanofluid with microorganisms influence inside absorptive channel subject to magnetic field and heat source. [PDF]
Discov NanoAdnan +8 more
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Thermal transport in single, binary and tri-hybrid nanofluid over porous medium for heat and aeronautical applications. [PDF]
Discov NanoPadma SV +3 more
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Optimized nanofluid coolants enhance thermal performance in ruffled fin automotive radiators. [PDF]
Sci RepOshionebo FD +6 more
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Advancing sustainable machining of inconel 718 through nanoparticle-enhanced coconut oil and RSM-GA optimization. [PDF]
Sci RepAlmomani O +9 more
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Enhanced operational efficacy of direct absorption solar collectors using multi-walled carbon nanotubes/MoS<sub>2</sub> nanofluids. [PDF]
Sci RepTalebi K +4 more
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Numerical analysis of MHD Jeffrey hybrid nanofluid flow over a solar curved sheet using ANN model. [PDF]
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Nano Letters, 2007
We present a nanofluidic diode that at voltage range -5 to +5 V rectifies ion current with degrees of rectification reaching several hundreds. The diode is based on a single asymmetric nanopore whose surface was patterned so that a sharp boundary between positively and negatively charged regions is created. This boundary defines a zone that is enriched
Ivan, Vlassiouk, Zuzanna S, Siwy
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We present a nanofluidic diode that at voltage range -5 to +5 V rectifies ion current with degrees of rectification reaching several hundreds. The diode is based on a single asymmetric nanopore whose surface was patterned so that a sharp boundary between positively and negatively charged regions is created. This boundary defines a zone that is enriched
Ivan, Vlassiouk, Zuzanna S, Siwy
openaire +2 more sources
Chem. Soc. Rev., 2010
Ionic rectifying effect is a unique ion transport phenomenon observed in certain types of nanofluidic devices and cannot be implemented in microfluidics. Analogous to a diode in solid-state electronics, these diode-like nanofluidic devices can be used to turn the ionic flow on and off depending on the polarity of the applied electric-field.
Li-Jing, Cheng, L Jay, Guo
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Ionic rectifying effect is a unique ion transport phenomenon observed in certain types of nanofluidic devices and cannot be implemented in microfluidics. Analogous to a diode in solid-state electronics, these diode-like nanofluidic devices can be used to turn the ionic flow on and off depending on the polarity of the applied electric-field.
Li-Jing, Cheng, L Jay, Guo
openaire +2 more sources