SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4380082039> ?p ?o ?g. }

Showing items 1 to 100 of ±138 with 100 items per page.

W4380082039 endingPage "636" @default.
W4380082039 startingPage "636" @default.
W4380082039 abstract "The rapid development of advanced material science boosts novel chemical analytical technologies for effective pretreatment and sensitive sensing applications in the fields of environmental monitoring, food security, biomedicines, and human health. Ionic covalent organic frameworks (iCOFs) emerge as a class of covalent organic frameworks (COFs) with electrically charged frames or pores as well as predesigned molecular and topological structures, large specific surface area, high crystallinity, and good stability. Benefiting from the pore size interception effect, electrostatic interaction, ion exchange, and recognizing group load, iCOFs exhibit the promising ability to extract specific analytes and enrich trace substances from samples for accurate analysis. On the other hand, the stimuli response of iCOFs and their composites to electrochemical, electric, or photo-irradiating sources endows them as potential transducers for biosensing, environmental analysis, surroundings monitoring, etc. In this review, we summarized the typical construction of iCOFs and focused on their rational structure design for analytical extraction/enrichment and sensing applications in recent years. The important role of iCOFs in the chemical analysis was fully highlighted. Finally, the opportunities and challenges of iCOF-based analytical technologies were also discussed, which may be beneficial to provide a solid foundation for further design and application of iCOFs." @default.
W4380082039 created "2023-06-10" @default.
W4380082039 creator A5003469268 @default.
W4380082039 creator A5031219535 @default.
W4380082039 creator A5058970973 @default.
W4380082039 creator A5085467365 @default.
W4380082039 date "2023-06-08" @default.
W4380082039 modified "2023-10-05" @default.
W4380082039 title "Rational Fabrication of Ionic Covalent Organic Frameworks for Chemical Analysis Applications" @default.
W4380082039 cites W1873323908 @default.
W4380082039 cites W1974569397 @default.
W4380082039 cites W2043435803 @default.
W4380082039 cites W2071173369 @default.
W4380082039 cites W2075067359 @default.
W4380082039 cites W2110435198 @default.
W4380082039 cites W2136791506 @default.
W4380082039 cites W2144613836 @default.
W4380082039 cites W2168614264 @default.
W4380082039 cites W2266412763 @default.
W4380082039 cites W2341042528 @default.
W4380082039 cites W2341179493 @default.
W4380082039 cites W2415612732 @default.
W4380082039 cites W2587635451 @default.
W4380082039 cites W2594238106 @default.
W4380082039 cites W2597771383 @default.
W4380082039 cites W2603410158 @default.
W4380082039 cites W2614263475 @default.
W4380082039 cites W2616531638 @default.
W4380082039 cites W2730292674 @default.
W4380082039 cites W2767430742 @default.
W4380082039 cites W2768285209 @default.
W4380082039 cites W2781831224 @default.
W4380082039 cites W2800232292 @default.
W4380082039 cites W2824694668 @default.
W4380082039 cites W2884800853 @default.
W4380082039 cites W2886208751 @default.
W4380082039 cites W2897432509 @default.
W4380082039 cites W2899779464 @default.
W4380082039 cites W2907083886 @default.
W4380082039 cites W2922851009 @default.
W4380082039 cites W2924652724 @default.
W4380082039 cites W2939098830 @default.
W4380082039 cites W2944599664 @default.
W4380082039 cites W2969400096 @default.
W4380082039 cites W2977811315 @default.
W4380082039 cites W2990583444 @default.
W4380082039 cites W2995743834 @default.
W4380082039 cites W2999632881 @default.
W4380082039 cites W3005073129 @default.
W4380082039 cites W3006043864 @default.
W4380082039 cites W3008309809 @default.
W4380082039 cites W3015089664 @default.
W4380082039 cites W3019341428 @default.
W4380082039 cites W3063268971 @default.
W4380082039 cites W3090909757 @default.
W4380082039 cites W3091253856 @default.
W4380082039 cites W3106554418 @default.
W4380082039 cites W3109302533 @default.
W4380082039 cites W3119010819 @default.
W4380082039 cites W3122380325 @default.
W4380082039 cites W3127427817 @default.
W4380082039 cites W3136558067 @default.
W4380082039 cites W3157443876 @default.
W4380082039 cites W3158331116 @default.
W4380082039 cites W3165134581 @default.
W4380082039 cites W3171318514 @default.
W4380082039 cites W3171936475 @default.
W4380082039 cites W3183724227 @default.
W4380082039 cites W3216247067 @default.
W4380082039 cites W4205848486 @default.
W4380082039 cites W4210734736 @default.
W4380082039 cites W4211249689 @default.
W4380082039 cites W4214632167 @default.
W4380082039 cites W4224265444 @default.
W4380082039 cites W4224949208 @default.
W4380082039 cites W4225375582 @default.
W4380082039 cites W4226378104 @default.
W4380082039 cites W4245135416 @default.
W4380082039 cites W4281252587 @default.
W4380082039 cites W4282047388 @default.
W4380082039 cites W4284664301 @default.
W4380082039 cites W4285605493 @default.
W4380082039 cites W4294267005 @default.
W4380082039 cites W4308322202 @default.
W4380082039 doi "https://doi.org/10.3390/bios13060636" @default.
W4380082039 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37367001" @default.
W4380082039 hasPublicationYear "2023" @default.
W4380082039 type Work @default.
W4380082039 citedByCount "0" @default.
W4380082039 crossrefType "journal-article" @default.
W4380082039 hasAuthorship W4380082039A5003469268 @default.
W4380082039 hasAuthorship W4380082039A5031219535 @default.
W4380082039 hasAuthorship W4380082039A5058970973 @default.
W4380082039 hasAuthorship W4380082039A5085467365 @default.
W4380082039 hasBestOaLocation W43800820391 @default.
W4380082039 hasConcept C127413603 @default.
W4380082039 hasConcept C145148216 @default.
W4380082039 hasConcept C171250308 @default.