SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3044653989> ?p ?o ?g. }

Showing items 1 to 100 of ±147 with 100 items per page.

W3044653989 endingPage "5713" @default.
W3044653989 startingPage "5705" @default.
W3044653989 abstract "To mimic and use the functions of the ion transport system that are central to biological processes, bioinspired ion-selective membranes are developed and show great potential in a variety of fields. However, the practical applications of them are now limited due to low pore density, low conductivity, or scale-up difficulty. Herein, we demonstrate a 2-hydroxyethyl methacrylate phosphate (HEMAP) hydrogel membrane with 3D interconnected nanopores and space charged through simple photopolymerization. The HEMAP hydrogel membrane exhibits high conductance and outstanding ion selectivity, and the membrane-based osmotic power generator shows the excellent output power density up to 5.38 W/m2. Both experimentally and theoretically, the 3D interconnected structure is revealed to play a key role in enhancing charge-governed ion transport and energy conversion. This work highlights the advantages of 3D interconnected nanopores in ion diffusion and shows the potential of our designed hydrogel membrane in osmotic energy conversion, water desalination, and sensors." @default.
W3044653989 created "2020-07-29" @default.
W3044653989 creator A5001138508 @default.
W3044653989 creator A5002893344 @default.
W3044653989 creator A5026233889 @default.
W3044653989 creator A5029468966 @default.
W3044653989 creator A5042544148 @default.
W3044653989 creator A5047398872 @default.
W3044653989 creator A5048290277 @default.
W3044653989 creator A5056336684 @default.
W3044653989 creator A5062297186 @default.
W3044653989 creator A5066221414 @default.
W3044653989 creator A5081611476 @default.
W3044653989 creator A5086556655 @default.
W3044653989 creator A5089038945 @default.
W3044653989 date "2020-07-21" @default.
W3044653989 modified "2023-10-17" @default.
W3044653989 title "Improved Ion Transport and High Energy Conversion through Hydrogel Membrane with 3D Interconnected Nanopores" @default.
W3044653989 cites W152580637 @default.
W3044653989 cites W1560940442 @default.
W3044653989 cites W1997947373 @default.
W3044653989 cites W1999177584 @default.
W3044653989 cites W1999838269 @default.
W3044653989 cites W2005490958 @default.
W3044653989 cites W2009634876 @default.
W3044653989 cites W2013149669 @default.
W3044653989 cites W2020226386 @default.
W3044653989 cites W2046714606 @default.
W3044653989 cites W2062050940 @default.
W3044653989 cites W2091961223 @default.
W3044653989 cites W2113961201 @default.
W3044653989 cites W2114378287 @default.
W3044653989 cites W2130869501 @default.
W3044653989 cites W2196432152 @default.
W3044653989 cites W2288756715 @default.
W3044653989 cites W2312947742 @default.
W3044653989 cites W2340538439 @default.
W3044653989 cites W2411093777 @default.
W3044653989 cites W2460650176 @default.
W3044653989 cites W2465579673 @default.
W3044653989 cites W2537424594 @default.
W3044653989 cites W2621883484 @default.
W3044653989 cites W2762100590 @default.
W3044653989 cites W2766872608 @default.
W3044653989 cites W2773134645 @default.
W3044653989 cites W2776188821 @default.
W3044653989 cites W2779473813 @default.
W3044653989 cites W2781950944 @default.
W3044653989 cites W2803061720 @default.
W3044653989 cites W2889859195 @default.
W3044653989 cites W2890762818 @default.
W3044653989 cites W2898257405 @default.
W3044653989 cites W2903086347 @default.
W3044653989 cites W2911675929 @default.
W3044653989 cites W2912074038 @default.
W3044653989 cites W2913558414 @default.
W3044653989 cites W2921440968 @default.
W3044653989 cites W2921898780 @default.
W3044653989 cites W2951698301 @default.
W3044653989 cites W2955136765 @default.
W3044653989 cites W2958827861 @default.
W3044653989 cites W2966678358 @default.
W3044653989 cites W2971091637 @default.
W3044653989 cites W2982307411 @default.
W3044653989 cites W2999964955 @default.
W3044653989 cites W4251439652 @default.
W3044653989 doi "https://doi.org/10.1021/acs.nanolett.0c01087" @default.
W3044653989 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/32692569" @default.
W3044653989 hasPublicationYear "2020" @default.
W3044653989 type Work @default.
W3044653989 sameAs 3044653989 @default.
W3044653989 citedByCount "60" @default.
W3044653989 countsByYear W30446539892020 @default.
W3044653989 countsByYear W30446539892021 @default.
W3044653989 countsByYear W30446539892022 @default.
W3044653989 countsByYear W30446539892023 @default.
W3044653989 crossrefType "journal-article" @default.
W3044653989 hasAuthorship W3044653989A5001138508 @default.
W3044653989 hasAuthorship W3044653989A5002893344 @default.
W3044653989 hasAuthorship W3044653989A5026233889 @default.
W3044653989 hasAuthorship W3044653989A5029468966 @default.
W3044653989 hasAuthorship W3044653989A5042544148 @default.
W3044653989 hasAuthorship W3044653989A5047398872 @default.
W3044653989 hasAuthorship W3044653989A5048290277 @default.
W3044653989 hasAuthorship W3044653989A5056336684 @default.
W3044653989 hasAuthorship W3044653989A5062297186 @default.
W3044653989 hasAuthorship W3044653989A5066221414 @default.
W3044653989 hasAuthorship W3044653989A5081611476 @default.
W3044653989 hasAuthorship W3044653989A5086556655 @default.
W3044653989 hasAuthorship W3044653989A5089038945 @default.
W3044653989 hasConcept C121332964 @default.
W3044653989 hasConcept C127413603 @default.
W3044653989 hasConcept C141795571 @default.
W3044653989 hasConcept C144822601 @default.
W3044653989 hasConcept C145148216 @default.
W3044653989 hasConcept C171250308 @default.
W3044653989 hasConcept C178790620 @default.
W3044653989 hasConcept C185592680 @default.