SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2015284122> ?p ?o ?g. }

Showing items 1 to 100 of ±134 with 100 items per page.

W2015284122 endingPage "2437" @default.
W2015284122 startingPage "2419" @default.
W2015284122 abstract "Currently, ingenious new analytical and process experimental techniques which are environmentally benign techniques, viz., ultrasound irradiation, have become immensely popular in promoting various reactions. In this work, a novel soluble multi-site phase transfer catalyst (PTC) viz., 1,4-bis-(propylmethyleneammounium chloride)benzene (BPMACB) was synthesized and its catalytic efficiency was assessed by observing the kinetics of sonolytic polymerization of methacrylic acid butyl ester (MABE) using potassium persulphate (PPS) as an initiator. The ultrasound–multi-site phase transfer catalysis (US-MPTC)-assisted polymerization reaction was compared with the silent (non-ultrasonic) polymerization reaction. The effects of the catalyst and various reaction parameters on the catalytic performance were in detail investigated by following the kinetics of polymerization of MABE in an ethyl acetate-water biphasic system. From the detailed kinetic investigation we propose a plausible mechanism. Further the kinetic results demonstrate clearly that ultrasound-assisted phase-transfer catalysis significantly increased the reaction rate when compared to silent reactions. Notably, this environmentally benign and cost-effective process has great potential to be applied in various polymer industries." @default.
W2015284122 created "2016-06-24" @default.
W2015284122 creator A5004679819 @default.
W2015284122 creator A5043222579 @default.
W2015284122 creator A5056484486 @default.
W2015284122 date "2013-02-21" @default.
W2015284122 modified "2023-10-08" @default.
W2015284122 title "Sonolytic and Silent Polymerization of Methacrlyic Acid Butyl Ester Catalyzed by a New Onium Salt with bis-Active Sites in a Biphasic System — A Comparative Investigation" @default.
W2015284122 cites W111097618 @default.
W2015284122 cites W1497282258 @default.
W2015284122 cites W1963489932 @default.
W2015284122 cites W1964373482 @default.
W2015284122 cites W1965273334 @default.
W2015284122 cites W1970239080 @default.
W2015284122 cites W1974038448 @default.
W2015284122 cites W1982524031 @default.
W2015284122 cites W1985987620 @default.
W2015284122 cites W1990010488 @default.
W2015284122 cites W1995524700 @default.
W2015284122 cites W1995842323 @default.
W2015284122 cites W1996836741 @default.
W2015284122 cites W1998450531 @default.
W2015284122 cites W2000890933 @default.
W2015284122 cites W2006556173 @default.
W2015284122 cites W2010981022 @default.
W2015284122 cites W2019499123 @default.
W2015284122 cites W2021578914 @default.
W2015284122 cites W2021993564 @default.
W2015284122 cites W2026841870 @default.
W2015284122 cites W2034467296 @default.
W2015284122 cites W2035547939 @default.
W2015284122 cites W2036880369 @default.
W2015284122 cites W2037325958 @default.
W2015284122 cites W2038057217 @default.
W2015284122 cites W2046538588 @default.
W2015284122 cites W2055609913 @default.
W2015284122 cites W2056022884 @default.
W2015284122 cites W2060917284 @default.
W2015284122 cites W2067563770 @default.
W2015284122 cites W2074097268 @default.
W2015284122 cites W2074586424 @default.
W2015284122 cites W2080266683 @default.
W2015284122 cites W2081764888 @default.
W2015284122 cites W2085964731 @default.
W2015284122 cites W2086138665 @default.
W2015284122 cites W2088716326 @default.
W2015284122 cites W2089530942 @default.
W2015284122 cites W2091262139 @default.
W2015284122 cites W2093978647 @default.
W2015284122 cites W2095433518 @default.
W2015284122 cites W2103021942 @default.
W2015284122 cites W2104309636 @default.
W2015284122 cites W2108812250 @default.
W2015284122 cites W2135613233 @default.
W2015284122 cites W2140446999 @default.
W2015284122 cites W2165003807 @default.
W2015284122 cites W2167539127 @default.
W2015284122 cites W2169513605 @default.
W2015284122 cites W2175424781 @default.
W2015284122 cites W2336186308 @default.
W2015284122 cites W2343883618 @default.
W2015284122 cites W2950295843 @default.
W2015284122 cites W2951525472 @default.
W2015284122 cites W2952750527 @default.
W2015284122 cites W2953280502 @default.
W2015284122 cites W4239597844 @default.
W2015284122 cites W4248685529 @default.
W2015284122 doi "https://doi.org/10.3390/molecules18022419" @default.
W2015284122 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/6270529" @default.
W2015284122 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/23429416" @default.
W2015284122 hasPublicationYear "2013" @default.
W2015284122 type Work @default.
W2015284122 sameAs 2015284122 @default.
W2015284122 citedByCount "11" @default.
W2015284122 countsByYear W20152841222014 @default.
W2015284122 countsByYear W20152841222016 @default.
W2015284122 countsByYear W20152841222017 @default.
W2015284122 countsByYear W20152841222018 @default.
W2015284122 countsByYear W20152841222019 @default.
W2015284122 countsByYear W20152841222021 @default.
W2015284122 countsByYear W20152841222022 @default.
W2015284122 crossrefType "journal-article" @default.
W2015284122 hasAuthorship W2015284122A5004679819 @default.
W2015284122 hasAuthorship W2015284122A5043222579 @default.
W2015284122 hasAuthorship W2015284122A5056484486 @default.
W2015284122 hasBestOaLocation W20152841221 @default.
W2015284122 hasConcept C121332964 @default.
W2015284122 hasConcept C148898269 @default.
W2015284122 hasConcept C161790260 @default.
W2015284122 hasConcept C178790620 @default.
W2015284122 hasConcept C185592680 @default.
W2015284122 hasConcept C188027245 @default.
W2015284122 hasConcept C2775968528 @default.
W2015284122 hasConcept C2778930939 @default.
W2015284122 hasConcept C44228677 @default.
W2015284122 hasConcept C521977710 @default.
W2015284122 hasConcept C62520636 @default.
W2015284122 hasConceptScore W2015284122C121332964 @default.