SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4220691796> ?p ?o ?g. }

Showing items 1 to 100 of ±165 with 100 items per page.

W4220691796 endingPage "351" @default.
W4220691796 startingPage "333" @default.
W4220691796 abstract "Nanofluidic systems provide an emerging and efficient platform for thermoelectric conversion and fluid pumping with low-grade heat energy. As a basis of their performance enhancement, the effects of the structures and properties of the nanofluidic systems on the thermoelectric response (TER) and the thermoosmotic response (TOR) are yet to be explored.The simultaneous TER and TOR of electrolyte solutions in nanofluidic membrane pores on which an axial temperature gradient is exerted are investigated numerically and semi-analytically. A semi-analytical model is developed with the consideration of finite membrane thermal conductivity and the reservoir/entrance effect.The increase in the access resistance due to the nanopore-reservoir interfaces accounts for the decrease of short circuit current at the low concentration regime. The decrease in the thermal conductivity ratio can enhance the TER and TOR. The maximum power density occurring at the nanopore radius twice the Debye length ranges from several to dozens of mW K-2 m-2 and is an order of magnitude higher than typical thermo-supercapacitors. The surface charge polarity can heavily affect the sign and magnitude of the short-circuit current, the Seebeck coefficient and the open-circuit thermoosmotic coefficient, but has less effect on the short-circuit thermoosmotic coefficient. Furthermore, the membrane thickness makes different impacts on TER and TOR for zero and finite membrane thermal conductivity." @default.
W4220691796 created "2022-04-03" @default.
W4220691796 creator A5021273972 @default.
W4220691796 creator A5038158677 @default.
W4220691796 creator A5047689839 @default.
W4220691796 creator A5059079332 @default.
W4220691796 creator A5061847709 @default.
W4220691796 creator A5068224707 @default.
W4220691796 creator A5070058293 @default.
W4220691796 creator A5090096961 @default.
W4220691796 date "2022-07-01" @default.
W4220691796 modified "2023-10-14" @default.
W4220691796 title "Simultaneous thermoosmotic and thermoelectric responses in nanoconfined electrolyte solutions: Effects of nanopore structures and membrane properties" @default.
W4220691796 cites W1770434491 @default.
W4220691796 cites W1825136010 @default.
W4220691796 cites W1983781130 @default.
W4220691796 cites W2005490958 @default.
W4220691796 cites W2021118398 @default.
W4220691796 cites W2021747225 @default.
W4220691796 cites W2029721650 @default.
W4220691796 cites W2036513286 @default.
W4220691796 cites W2037093123 @default.
W4220691796 cites W2044699539 @default.
W4220691796 cites W2070926243 @default.
W4220691796 cites W2101974313 @default.
W4220691796 cites W2128274052 @default.
W4220691796 cites W2130869501 @default.
W4220691796 cites W2149466305 @default.
W4220691796 cites W2182349717 @default.
W4220691796 cites W2247146214 @default.
W4220691796 cites W2260617106 @default.
W4220691796 cites W2286253052 @default.
W4220691796 cites W2323123369 @default.
W4220691796 cites W2460650176 @default.
W4220691796 cites W2531686966 @default.
W4220691796 cites W2614075545 @default.
W4220691796 cites W2766057372 @default.
W4220691796 cites W2772726784 @default.
W4220691796 cites W2779132856 @default.
W4220691796 cites W2795881970 @default.
W4220691796 cites W2804527299 @default.
W4220691796 cites W2888937147 @default.
W4220691796 cites W2902804550 @default.
W4220691796 cites W2908987902 @default.
W4220691796 cites W2924826198 @default.
W4220691796 cites W2938126986 @default.
W4220691796 cites W2943097481 @default.
W4220691796 cites W2963748101 @default.
W4220691796 cites W2969852406 @default.
W4220691796 cites W2971100480 @default.
W4220691796 cites W2985025331 @default.
W4220691796 cites W2995777503 @default.
W4220691796 cites W2999774261 @default.
W4220691796 cites W3008056716 @default.
W4220691796 cites W3018256265 @default.
W4220691796 cites W3021789050 @default.
W4220691796 cites W3021989619 @default.
W4220691796 cites W3034523581 @default.
W4220691796 cites W3038392151 @default.
W4220691796 cites W3086281727 @default.
W4220691796 cites W3092620072 @default.
W4220691796 cites W3094964479 @default.
W4220691796 cites W3099306782 @default.
W4220691796 cites W3104486521 @default.
W4220691796 cites W3119059661 @default.
W4220691796 cites W3119708973 @default.
W4220691796 cites W3123442377 @default.
W4220691796 cites W3157758418 @default.
W4220691796 cites W3176352128 @default.
W4220691796 cites W3214239678 @default.
W4220691796 cites W4207026079 @default.
W4220691796 cites W3200561489 @default.
W4220691796 doi "https://doi.org/10.1016/j.jcis.2022.03.079" @default.
W4220691796 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/35344885" @default.
W4220691796 hasPublicationYear "2022" @default.
W4220691796 type Work @default.
W4220691796 citedByCount "5" @default.
W4220691796 countsByYear W42206917962022 @default.
W4220691796 countsByYear W42206917962023 @default.
W4220691796 crossrefType "journal-article" @default.
W4220691796 hasAuthorship W4220691796A5021273972 @default.
W4220691796 hasAuthorship W4220691796A5038158677 @default.
W4220691796 hasAuthorship W4220691796A5047689839 @default.
W4220691796 hasAuthorship W4220691796A5059079332 @default.
W4220691796 hasAuthorship W4220691796A5061847709 @default.
W4220691796 hasAuthorship W4220691796A5068224707 @default.
W4220691796 hasAuthorship W4220691796A5070058293 @default.
W4220691796 hasAuthorship W4220691796A5090096961 @default.
W4220691796 hasBestOaLocation W42206917962 @default.
W4220691796 hasConcept C112625512 @default.
W4220691796 hasConcept C121332964 @default.
W4220691796 hasConcept C131540310 @default.
W4220691796 hasConcept C141795571 @default.
W4220691796 hasConcept C145148216 @default.
W4220691796 hasConcept C147789679 @default.
W4220691796 hasConcept C159985019 @default.
W4220691796 hasConcept C171250308 @default.
W4220691796 hasConcept C17525397 @default.