SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3037903908> ?p ?o ?g. }

Showing items 1 to 100 of ±140 with 100 items per page.

W3037903908 endingPage "5019" @default.
W3037903908 startingPage "5007" @default.
W3037903908 abstract "Rational spatiotemporal irradiation of cellulose-based hydrogels (carboxymethylcellulose (CMC), citric acid, and riboflavin) using a laser diode stereolithography 3D printer obtained architectures referred to as photodegradation addressable hydrogels (PAHs). Under irradiation, these PAHs engage in an unprecedented spatially resolved zonal swelling illustrating marked but controllable changes in swelling and thickness while concomitantly obtaining improved oxygen transmission rate values by 5 times. XPS, carboxyl content, and swelling data comparisons of hydrogel formulations show that photodegradation and ablation of the material occur, where hydroxyl sites of CMC are converted to aldehydes and ketones. XRD data show that the total number of crystalline aggregates in the material are lowered after photoablation. The spatially tuned (photoablated) hydrogel films can thus be shaped into a lens form. The energy required for the lens tuning process can be lowered up to 30 times by incorporation of riboflavin in the films. The method demonstrated here enables the processing of a material that is difficult to be machined or cast by popular contact lens making methods." @default.
W3037903908 created "2020-07-02" @default.
W3037903908 creator A5021057857 @default.
W3037903908 creator A5032739902 @default.
W3037903908 creator A5042788553 @default.
W3037903908 creator A5063403724 @default.
W3037903908 creator A5066771968 @default.
W3037903908 date "2020-06-28" @default.
W3037903908 modified "2023-09-26" @default.
W3037903908 title "3D Photoinduced Spatiotemporal Resolution of Cellulose-Based Hydrogels for Fabrication of Biomedical Devices" @default.
W3037903908 cites W1642926013 @default.
W3037903908 cites W1798442788 @default.
W3037903908 cites W1969467998 @default.
W3037903908 cites W1970979855 @default.
W3037903908 cites W1973046622 @default.
W3037903908 cites W1977986618 @default.
W3037903908 cites W1980012855 @default.
W3037903908 cites W1981778925 @default.
W3037903908 cites W1999995635 @default.
W3037903908 cites W2004141916 @default.
W3037903908 cites W2015429392 @default.
W3037903908 cites W2035010339 @default.
W3037903908 cites W2042849936 @default.
W3037903908 cites W2047058586 @default.
W3037903908 cites W2053997076 @default.
W3037903908 cites W2076115726 @default.
W3037903908 cites W2117213484 @default.
W3037903908 cites W2142732918 @default.
W3037903908 cites W2147243909 @default.
W3037903908 cites W2166746630 @default.
W3037903908 cites W2169349055 @default.
W3037903908 cites W2300909665 @default.
W3037903908 cites W2337542543 @default.
W3037903908 cites W2346743013 @default.
W3037903908 cites W2467337529 @default.
W3037903908 cites W2471594003 @default.
W3037903908 cites W2475281548 @default.
W3037903908 cites W2513695666 @default.
W3037903908 cites W2532893565 @default.
W3037903908 cites W2555319379 @default.
W3037903908 cites W2574424141 @default.
W3037903908 cites W2575655636 @default.
W3037903908 cites W2588242577 @default.
W3037903908 cites W2592941099 @default.
W3037903908 cites W2607238865 @default.
W3037903908 cites W2729242700 @default.
W3037903908 cites W2748668406 @default.
W3037903908 cites W2755738053 @default.
W3037903908 cites W2799994438 @default.
W3037903908 cites W2804981439 @default.
W3037903908 cites W2886962853 @default.
W3037903908 cites W2888229712 @default.
W3037903908 cites W2899149206 @default.
W3037903908 cites W2909056211 @default.
W3037903908 cites W3023370907 @default.
W3037903908 cites W4248877480 @default.
W3037903908 cites W4252599436 @default.
W3037903908 cites W4289697695 @default.
W3037903908 cites W580485379 @default.
W3037903908 doi "https://doi.org/10.1021/acsabm.0c00517" @default.
W3037903908 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/35021678" @default.
W3037903908 hasPublicationYear "2020" @default.
W3037903908 type Work @default.
W3037903908 sameAs 3037903908 @default.
W3037903908 citedByCount "8" @default.
W3037903908 countsByYear W30379039082020 @default.
W3037903908 countsByYear W30379039082021 @default.
W3037903908 countsByYear W30379039082022 @default.
W3037903908 countsByYear W30379039082023 @default.
W3037903908 crossrefType "journal-article" @default.
W3037903908 hasAuthorship W3037903908A5021057857 @default.
W3037903908 hasAuthorship W3037903908A5032739902 @default.
W3037903908 hasAuthorship W3037903908A5042788553 @default.
W3037903908 hasAuthorship W3037903908A5063403724 @default.
W3037903908 hasAuthorship W3037903908A5066771968 @default.
W3037903908 hasBestOaLocation W30379039081 @default.
W3037903908 hasConcept C108586683 @default.
W3037903908 hasConcept C111337013 @default.
W3037903908 hasConcept C120665830 @default.
W3037903908 hasConcept C121332964 @default.
W3037903908 hasConcept C127413603 @default.
W3037903908 hasConcept C15336307 @default.
W3037903908 hasConcept C159985019 @default.
W3037903908 hasConcept C161790260 @default.
W3037903908 hasConcept C162847780 @default.
W3037903908 hasConcept C178790620 @default.
W3037903908 hasConcept C185544564 @default.
W3037903908 hasConcept C185592680 @default.
W3037903908 hasConcept C188027245 @default.
W3037903908 hasConcept C192562407 @default.
W3037903908 hasConcept C2776155809 @default.
W3037903908 hasConcept C2778540859 @default.
W3037903908 hasConcept C2779251873 @default.
W3037903908 hasConcept C2986805488 @default.
W3037903908 hasConcept C42360764 @default.
W3037903908 hasConcept C55493867 @default.
W3037903908 hasConcept C65165184 @default.
W3037903908 hasConceptScore W3037903908C108586683 @default.