FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2959437082> ?p ?o ?g. }

• W2959437082 endingPage "12610" @default.
• W2959437082 startingPage "12601" @default.
• W2959437082 abstract "Abstract Polymer micelles are an attractive means to solubilize water insoluble compounds such as drugs. Drug loading, formulations stability and control over drug release are crucial factors for drug‐loaded polymer micelles. The interactions between the polymeric host and the guest molecules are considered critical to control these factors but typically barely understood. Here, we compare two isomeric polymer micelles, one of which enables ultra‐high curcumin loading exceeding 50 wt.%, while the other allows a drug loading of only 25 wt.%. In the low capacity micelles, steady‐state fluorescence revealed a very unusual feature of curcumin fluorescence, a high energy emission at 510 nm. Time‐resolved fluorescence upconversion showed that the fluorescence life time of the corresponding species is too short in the high‐capacity micelles, preventing an observable emission in steady‐state. Therefore, contrary to common perception, stronger interactions between host and guest can be detrimental to the drug loading in polymer micelles." @default.
• W2959437082 created "2019-07-23" @default.
• W2959437082 creator A5025070309 @default.
• W2959437082 creator A5030662144 @default.
• W2959437082 creator A5049819232 @default.
• W2959437082 creator A5073761398 @default.
• W2959437082 creator A5078054639 @default.
• W2959437082 creator A5083856458 @default.
• W2959437082 date "2019-09-02" @default.
• W2959437082 modified "2023-10-16" @default.
• W2959437082 title "Ultra‐High to Ultra‐Low Drug‐Loaded Micelles: Probing Host–Guest Interactions by Fluorescence Spectroscopy" @default.
• W2959437082 cites W1248683074 @default.
• W2959437082 cites W129789289 @default.
• W2959437082 cites W1563515257 @default.
• W2959437082 cites W1586405889 @default.
• W2959437082 cites W1813628317 @default.
• W2959437082 cites W1967102762 @default.
• W2959437082 cites W1973482048 @default.
• W2959437082 cites W1976194786 @default.
• W2959437082 cites W1977920395 @default.
• W2959437082 cites W1984159197 @default.
• W2959437082 cites W1987608598 @default.
• W2959437082 cites W1987712541 @default.
• W2959437082 cites W1988370688 @default.
• W2959437082 cites W1991538816 @default.
• W2959437082 cites W1997789582 @default.
• W2959437082 cites W2011163900 @default.
• W2959437082 cites W2027561327 @default.
• W2959437082 cites W2034123367 @default.
• W2959437082 cites W2038146233 @default.
• W2959437082 cites W2042618296 @default.
• W2959437082 cites W2043544578 @default.
• W2959437082 cites W2044021232 @default.
• W2959437082 cites W2053240727 @default.
• W2959437082 cites W2056808628 @default.
• W2959437082 cites W2056812738 @default.
• W2959437082 cites W2061306434 @default.
• W2959437082 cites W2064409957 @default.
• W2959437082 cites W2072175441 @default.
• W2959437082 cites W2073323067 @default.
• W2959437082 cites W2074682587 @default.
• W2959437082 cites W2077431908 @default.
• W2959437082 cites W2080633412 @default.
• W2959437082 cites W2080774121 @default.
• W2959437082 cites W2084219016 @default.
• W2959437082 cites W2089170764 @default.
• W2959437082 cites W2089390251 @default.
• W2959437082 cites W2095914657 @default.
• W2959437082 cites W2105778142 @default.
• W2959437082 cites W2110167136 @default.
• W2959437082 cites W2112242142 @default.
• W2959437082 cites W2114095008 @default.
• W2959437082 cites W2119653692 @default.
• W2959437082 cites W2120815953 @default.
• W2959437082 cites W2122480988 @default.
• W2959437082 cites W2123684526 @default.
• W2959437082 cites W2132182488 @default.
• W2959437082 cites W2150143338 @default.
• W2959437082 cites W2151719438 @default.
• W2959437082 cites W2162284315 @default.
• W2959437082 cites W2163459905 @default.
• W2959437082 cites W2167585450 @default.
• W2959437082 cites W2318872099 @default.
• W2959437082 cites W2320370178 @default.
• W2959437082 cites W2322566654 @default.
• W2959437082 cites W2324503525 @default.
• W2959437082 cites W2328478424 @default.
• W2959437082 cites W2337833922 @default.
• W2959437082 cites W2405067438 @default.
• W2959437082 cites W2409885204 @default.
• W2959437082 cites W2464586032 @default.
• W2959437082 cites W2490706725 @default.
• W2959437082 cites W2514236325 @default.
• W2959437082 cites W2594800109 @default.
• W2959437082 cites W2610931291 @default.
• W2959437082 cites W2625863259 @default.
• W2959437082 cites W2741222691 @default.
• W2959437082 cites W2783404219 @default.
• W2959437082 cites W2792801574 @default.
• W2959437082 cites W2797935795 @default.
• W2959437082 cites W2800256972 @default.
• W2959437082 cites W2807377921 @default.
• W2959437082 cites W2884408118 @default.
• W2959437082 cites W2891430988 @default.
• W2959437082 cites W2898614380 @default.
• W2959437082 cites W2899192398 @default.
• W2959437082 cites W2940036175 @default.
• W2959437082 cites W2955669047 @default.
• W2959437082 cites W4230727478 @default.
• W2959437082 cites W4233367255 @default.
• W2959437082 cites W4236084930 @default.
• W2959437082 cites W4239269527 @default.
• W2959437082 cites W4241875478 @default.
• W2959437082 cites W4242733734 @default.
• W2959437082 doi "https://doi.org/10.1002/chem.201902619" @default.
• W2959437082 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/6790594" @default.
• W2959437082 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/31291028" @default.
• W2959437082 hasPublicationYear "2019" @default.

• next