SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4200259680> ?p ?o ?g. }

Showing items 1 to 100 of ±378 with 100 items per page.

W4200259680 endingPage "101488" @default.
W4200259680 startingPage "101488" @default.
W4200259680 abstract "Thermoplastic elastomers (TPEs) combine the features of vulcanized thermoset rubbers and thermoplastic materials in their phase-separated microdomain structure. As a consequence soft, flexible and resilient materials are obtained, which can be high-speed processed from the melt state. In the last decades, a variety of polymerization strategies has been proven successful to synthesize block copolymers for TPE materials on an industrial scale. Motivated by the outstanding properties of natural rubber (cis-1,4-polyisoprene), the alkyllithium initiated anionic polymerization of isoprene and butadiene plays a key role for the flexible block of TPEs. The synthesis of ABA-type triblock copolymers based on styrene and 1,3-dienes leads to phase-segregated systems which do not require chemical crosslinking. The living character of the carbanionic chain end was utilized in numerous studies to synthesize complex, defined comonomer sequences by multi-step synthesis. Systematic variation of numerous parameters, e.g., block size and sequence allowed to correlate the resulting mechanical and morphological properties with polymer structure. In this review the focus is placed on multiblock structures and gradient copolymers, addressing key parameters of the molecular architecture to enable a general concept for the design of TPE materials with tailor-made properties. The choice of monomers, also bio-based diene structures such as β-myrcene or β-farnesene is another parameter. The major focus is put on the direct, i.e. statistical anionic copolymerization kinetics as the method of choice to synthesize rather complex multiblock sequences in a one-pot reaction. On-line spectroscopic methods are presented that enable to monitor the monomer consumption during the copolymerization, which directly translates to the comonomer incorporation and gradient formation. To enable precise insight into the comonomer composition of the formed chains, an overview of the theory of copolymerization and the determination of reactivity ratios is given. Kinetic Monte Carlo simulation (kMC) is a versatile tool. Based on experimentally determined kinetic rate constants, the copolymerization can be performed in silico. This enables access to relevant parameters, as for example the conversion as a function of the time as well as the composition and monomer sequence in individual chains, which allow rational design and evaluation of synthetic experiments." @default.
W4200259680 created "2021-12-31" @default.
W4200259680 creator A5017717476 @default.
W4200259680 creator A5021333381 @default.
W4200259680 creator A5022204533 @default.
W4200259680 creator A5050535862 @default.
W4200259680 creator A5073420023 @default.
W4200259680 date "2022-01-01" @default.
W4200259680 modified "2023-10-11" @default.
W4200259680 title "Rational design of tapered multiblock copolymers for thermoplastic elastomers" @default.
W4200259680 cites W1487911048 @default.
W4200259680 cites W1510322961 @default.
W4200259680 cites W1552969335 @default.
W4200259680 cites W1572470728 @default.
W4200259680 cites W1916997259 @default.
W4200259680 cites W1924094536 @default.
W4200259680 cites W1954516922 @default.
W4200259680 cites W1963909334 @default.
W4200259680 cites W1964779473 @default.
W4200259680 cites W1967139056 @default.
W4200259680 cites W1968067523 @default.
W4200259680 cites W1970708429 @default.
W4200259680 cites W1971110149 @default.
W4200259680 cites W1971698215 @default.
W4200259680 cites W1972016610 @default.
W4200259680 cites W1973898312 @default.
W4200259680 cites W1974064236 @default.
W4200259680 cites W1975100391 @default.
W4200259680 cites W1975453183 @default.
W4200259680 cites W1975497574 @default.
W4200259680 cites W1976546571 @default.
W4200259680 cites W1978060721 @default.
W4200259680 cites W1978749375 @default.
W4200259680 cites W1979519434 @default.
W4200259680 cites W1980485041 @default.
W4200259680 cites W1982449027 @default.
W4200259680 cites W1983072020 @default.
W4200259680 cites W1983124696 @default.
W4200259680 cites W1984274730 @default.
W4200259680 cites W1984981058 @default.
W4200259680 cites W1986287755 @default.
W4200259680 cites W1986497676 @default.
W4200259680 cites W1987533250 @default.
W4200259680 cites W1987575565 @default.
W4200259680 cites W1988073118 @default.
W4200259680 cites W1988688275 @default.
W4200259680 cites W1990711052 @default.
W4200259680 cites W1992338910 @default.
W4200259680 cites W1993090620 @default.
W4200259680 cites W1996673847 @default.
W4200259680 cites W1998006482 @default.
W4200259680 cites W1999034326 @default.
W4200259680 cites W1999429588 @default.
W4200259680 cites W1999433893 @default.
W4200259680 cites W2000509778 @default.
W4200259680 cites W2000699112 @default.
W4200259680 cites W2001365369 @default.
W4200259680 cites W2005717429 @default.
W4200259680 cites W2007143802 @default.
W4200259680 cites W2007395447 @default.
W4200259680 cites W2007609676 @default.
W4200259680 cites W2007829833 @default.
W4200259680 cites W2008275718 @default.
W4200259680 cites W2008982452 @default.
W4200259680 cites W2009697282 @default.
W4200259680 cites W2009864438 @default.
W4200259680 cites W2010416967 @default.
W4200259680 cites W2012675164 @default.
W4200259680 cites W201298804 @default.
W4200259680 cites W2017265956 @default.
W4200259680 cites W2017835443 @default.
W4200259680 cites W2018286831 @default.
W4200259680 cites W2018723660 @default.
W4200259680 cites W2020488563 @default.
W4200259680 cites W2021690741 @default.
W4200259680 cites W2021915361 @default.
W4200259680 cites W2023279932 @default.
W4200259680 cites W2023941521 @default.
W4200259680 cites W2025134996 @default.
W4200259680 cites W2025791403 @default.
W4200259680 cites W2026034580 @default.
W4200259680 cites W2027402936 @default.
W4200259680 cites W2027952815 @default.
W4200259680 cites W2028691570 @default.
W4200259680 cites W2029051913 @default.
W4200259680 cites W2029406063 @default.
W4200259680 cites W2031581494 @default.
W4200259680 cites W2032109098 @default.
W4200259680 cites W2032548120 @default.
W4200259680 cites W2033229394 @default.
W4200259680 cites W2034217906 @default.
W4200259680 cites W2034228827 @default.
W4200259680 cites W2034501059 @default.
W4200259680 cites W2035368246 @default.
W4200259680 cites W2035471548 @default.
W4200259680 cites W2036130100 @default.
W4200259680 cites W2037885041 @default.
W4200259680 cites W2038853874 @default.