SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2775354294> ?p ?o ?g. }

Showing items 1 to 100 of ±154 with 100 items per page.

W2775354294 endingPage "9725" @default.
W2775354294 startingPage "9713" @default.
W2775354294 abstract "A versatile and promising organic–inorganic hybridization method is proposed for the fabrication of highly transparent polystyrene (PSt) and poly(methyl methacrylate) (PMMA) hybrid bulk materials containing highly crystalline ZrO2 nanoparticles (NPs) having a number-average diameter of 3.11 nm. The two key technologies that have been developed are the surface treatment, hydrophobization, and functionalization of ZrO2 NPs originally dispersed in water and their nanodispersion into a polymer continuous phase without any coagulation and/or agglomeration. A unique and fascinating surface treatment method is demonstrated in which the hydrophobization and phase transfer of ZrO2 NPs from water to toluene is simultaneously achieved. Transparent surface-modified ZrO2 nanodispersions in toluene are obtained by a gentle solvent exchange from a ternary solvent mixture composed of water, toluene, and methanol. The addition of carboxylic acids having more than four carbon atoms as the surface treatment agent enables this hydrophobization. The carboxylic acid-modified ZrO2 NPs prepared by the method are thoroughly characterized by small-angle X-ray scattering (SAXS), dynamic light scattering (DLS), scanning TEM, TGA, and NMR, and IR spectroscopies. The surface-treated ZrO2 NP powders after drying possess the ability of redissolution or nanodispersion in several organic solvents and vinyl monomers. Further, optically transparent PSt and PMMA hybrid bulk materials with thicknesses of 10 mm are fabricated by the copolymerization of styrene (St) or methyl methacrylate (MMA) as a representative vinylic monomer with methacrylate-functionalized ZrO2 NPs as the multivinyl cross-linking agent. The optical properties of hybrid materials having a higher refractive index than that of the original homopolymers are measured and compared with the theories based on Fresnel refraction, Lorentz–Lorenz effective medium expansion, and Lambert–Beer and Rayleigh scattering equations. The present method provides promising candidates for different transparent hybrid materials consisting of inorganic and organic materials." @default.
W2775354294 created "2017-12-22" @default.
W2775354294 creator A5003809550 @default.
W2775354294 creator A5005183037 @default.
W2775354294 creator A5014320155 @default.
W2775354294 creator A5052779960 @default.
W2775354294 creator A5058654977 @default.
W2775354294 creator A5088913856 @default.
W2775354294 creator A5091114737 @default.
W2775354294 date "2017-12-04" @default.
W2775354294 modified "2023-10-18" @default.
W2775354294 title "Unique Hydrophobization and Hybridization via Direct Phase Transfer of ZrO<sub>2</sub> Nanoparticles from Water to Toluene Producing Highly Transparent Polystyrene and Poly(methyl methacrylate) Hybrid Bulk Materials" @default.
W2775354294 cites W1966453599 @default.
W2775354294 cites W1973142414 @default.
W2775354294 cites W1978812914 @default.
W2775354294 cites W1988202568 @default.
W2775354294 cites W1990128242 @default.
W2775354294 cites W1990730068 @default.
W2775354294 cites W1993506166 @default.
W2775354294 cites W1993744983 @default.
W2775354294 cites W1994939627 @default.
W2775354294 cites W1999843770 @default.
W2775354294 cites W2000735308 @default.
W2775354294 cites W2004078809 @default.
W2775354294 cites W2013480153 @default.
W2775354294 cites W2018772917 @default.
W2775354294 cites W2019986329 @default.
W2775354294 cites W2021659650 @default.
W2775354294 cites W2023305493 @default.
W2775354294 cites W2033418424 @default.
W2775354294 cites W2039972367 @default.
W2775354294 cites W2043038946 @default.
W2775354294 cites W2053299172 @default.
W2775354294 cites W2057114799 @default.
W2775354294 cites W2057480549 @default.
W2775354294 cites W2060309765 @default.
W2775354294 cites W2062427792 @default.
W2775354294 cites W2065161475 @default.
W2775354294 cites W2070913799 @default.
W2775354294 cites W2075040146 @default.
W2775354294 cites W2076342314 @default.
W2775354294 cites W2077114810 @default.
W2775354294 cites W2080464795 @default.
W2775354294 cites W2086607495 @default.
W2775354294 cites W2087249818 @default.
W2775354294 cites W2090436425 @default.
W2775354294 cites W2093652930 @default.
W2775354294 cites W2096016011 @default.
W2775354294 cites W2125349117 @default.
W2775354294 cites W2130758329 @default.
W2775354294 cites W2153725784 @default.
W2775354294 cites W2164653148 @default.
W2775354294 cites W2189654518 @default.
W2775354294 cites W2191611022 @default.
W2775354294 cites W2210440445 @default.
W2775354294 cites W2261353706 @default.
W2775354294 cites W2267739934 @default.
W2775354294 cites W2314618349 @default.
W2775354294 cites W2331440360 @default.
W2775354294 cites W2333872936 @default.
W2775354294 cites W2565387896 @default.
W2775354294 cites W4231827664 @default.
W2775354294 cites W4252312282 @default.
W2775354294 cites W2565108139 @default.
W2775354294 doi "https://doi.org/10.1021/acs.macromol.7b02155" @default.
W2775354294 hasPublicationYear "2017" @default.
W2775354294 type Work @default.
W2775354294 sameAs 2775354294 @default.
W2775354294 citedByCount "17" @default.
W2775354294 countsByYear W27753542942018 @default.
W2775354294 countsByYear W27753542942019 @default.
W2775354294 countsByYear W27753542942020 @default.
W2775354294 countsByYear W27753542942021 @default.
W2775354294 countsByYear W27753542942022 @default.
W2775354294 countsByYear W27753542942023 @default.
W2775354294 crossrefType "journal-article" @default.
W2775354294 hasAuthorship W2775354294A5003809550 @default.
W2775354294 hasAuthorship W2775354294A5005183037 @default.
W2775354294 hasAuthorship W2775354294A5014320155 @default.
W2775354294 hasAuthorship W2775354294A5052779960 @default.
W2775354294 hasAuthorship W2775354294A5058654977 @default.
W2775354294 hasAuthorship W2775354294A5088913856 @default.
W2775354294 hasAuthorship W2775354294A5091114737 @default.
W2775354294 hasConcept C115537861 @default.
W2775354294 hasConcept C127413603 @default.
W2775354294 hasConcept C132050475 @default.
W2775354294 hasConcept C14631669 @default.
W2775354294 hasConcept C155672457 @default.
W2775354294 hasConcept C15920480 @default.
W2775354294 hasConcept C159985019 @default.
W2775354294 hasConcept C166940927 @default.
W2775354294 hasConcept C171250308 @default.
W2775354294 hasConcept C178790620 @default.
W2775354294 hasConcept C185592680 @default.
W2775354294 hasConcept C188027245 @default.
W2775354294 hasConcept C192562407 @default.
W2775354294 hasConcept C2777566558 @default.
W2775354294 hasConcept C2777922577 @default.