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W4312019212 endingPage "254" @default.
W4312019212 startingPage "243" @default.
W4312019212 abstract "Raspberry-like poly(oligoethylene methacrylate-b-N-vinylcaprolactam)/polystyrene (POEGMA-b-PVCL/PS) patchy particles (PPs) and complex colloidal particle clusters (CCPCs) were fabricated in two-, and one-step (cascade) flow process. Surfactant-free, photo-initiated reversible addition-fragmentation transfer (RAFT) precipitation polymerization (Photo-RPP) was used to develop internally cross-linked POEGMA-b-PVCL microgels with narrow size distribution. Resulting microgel particles were then used to stabilize styrene seed droplets in water, producing raspberry-like PPs. In the cascade process, different hydrophobicity between microgel and PS induced the self-assembly of the first formed raspberry particles that then polymerized continuously in a Pickering emulsion to form the CCPCs. The internal structure as well as the surface morphology of PPs and CCPCs were studied as a function of polymerization conditions such as flow rate/retention time (Rt), temperature and the amount of used cross-linker. By performing Photo-RPP in tubular flow reactor we were able to gained advantages over heat dissipation and homogeneous light distribution in relation to thermally-, and photo-initiated bulk polymerizations. Tubular reactor also enabled detailed studies over morphological evolution of formed particles as a function of flow rate/Rt." @default.
W4312019212 created "2023-01-03" @default.
W4312019212 creator A5010650074 @default.
W4312019212 creator A5015174539 @default.
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W4312019212 creator A5063218776 @default.
W4312019212 creator A5072606640 @default.
W4312019212 creator A5090741733 @default.
W4312019212 date "2023-03-01" @default.
W4312019212 modified "2023-09-27" @default.
W4312019212 title "Multicompartment polymeric colloids from functional precursor Microgel: Synthesis in continuous process" @default.
W4312019212 cites W1784744537 @default.
W4312019212 cites W1980798986 @default.
W4312019212 cites W1982228392 @default.
W4312019212 cites W1987186346 @default.
W4312019212 cites W1990424094 @default.
W4312019212 cites W1996129012 @default.
W4312019212 cites W2004263779 @default.
W4312019212 cites W2014319651 @default.
W4312019212 cites W2019615841 @default.
W4312019212 cites W2026253052 @default.
W4312019212 cites W2027509467 @default.
W4312019212 cites W2031441505 @default.
W4312019212 cites W2033568169 @default.
W4312019212 cites W2036047715 @default.
W4312019212 cites W2041476557 @default.
W4312019212 cites W2045236353 @default.
W4312019212 cites W2045597430 @default.
W4312019212 cites W2048309555 @default.
W4312019212 cites W2061098164 @default.
W4312019212 cites W2065205159 @default.
W4312019212 cites W2066525494 @default.
W4312019212 cites W2090099891 @default.
W4312019212 cites W2094987733 @default.
W4312019212 cites W2095976477 @default.
W4312019212 cites W2096880676 @default.
W4312019212 cites W2100793941 @default.
W4312019212 cites W2104003689 @default.
W4312019212 cites W2135017559 @default.
W4312019212 cites W2153493656 @default.
W4312019212 cites W2156944699 @default.
W4312019212 cites W2161289040 @default.
W4312019212 cites W2162656605 @default.
W4312019212 cites W2187664814 @default.
W4312019212 cites W2298955823 @default.
W4312019212 cites W2315586133 @default.
W4312019212 cites W2316572087 @default.
W4312019212 cites W2316624959 @default.
W4312019212 cites W2320243037 @default.
W4312019212 cites W2333007927 @default.
W4312019212 cites W2345661018 @default.
W4312019212 cites W2411310835 @default.
W4312019212 cites W2469676770 @default.
W4312019212 cites W2507327517 @default.
W4312019212 cites W2507438193 @default.
W4312019212 cites W2522382789 @default.
W4312019212 cites W2563286331 @default.
W4312019212 cites W2579968578 @default.
W4312019212 cites W2597402474 @default.
W4312019212 cites W2611293378 @default.
W4312019212 cites W2619081342 @default.
W4312019212 cites W2626807911 @default.
W4312019212 cites W2737478748 @default.
W4312019212 cites W2737999898 @default.
W4312019212 cites W2738532853 @default.
W4312019212 cites W2739261621 @default.
W4312019212 cites W2763904883 @default.
W4312019212 cites W2767649030 @default.
W4312019212 cites W2767711574 @default.
W4312019212 cites W2796692817 @default.
W4312019212 cites W2808504153 @default.
W4312019212 cites W2808660999 @default.
W4312019212 cites W2857488197 @default.
W4312019212 cites W2889033673 @default.
W4312019212 cites W2893641033 @default.
W4312019212 cites W2908191406 @default.
W4312019212 cites W2962528884 @default.
W4312019212 cites W3023790499 @default.
W4312019212 cites W3033229369 @default.
W4312019212 cites W3036365006 @default.
W4312019212 cites W3084212495 @default.
W4312019212 cites W3088453686 @default.
W4312019212 cites W3107742581 @default.
W4312019212 cites W3134664096 @default.
W4312019212 cites W3151363593 @default.
W4312019212 cites W3186451657 @default.
W4312019212 cites W3201373512 @default.
W4312019212 cites W3204600510 @default.
W4312019212 cites W4206612469 @default.
W4312019212 cites W4246169547 @default.
W4312019212 cites W4285295275 @default.
W4312019212 doi "https://doi.org/10.1016/j.jcis.2022.12.044" @default.
W4312019212 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36535162" @default.
W4312019212 hasPublicationYear "2023" @default.
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