Enhanced Formation of Stereocomplex Crystallites of High Molecular Weight Poly(<scp>l</scp>-lactide)/Poly(<scp>d</scp>-lactide) Blends from Melt by Using Poly(ethylene glycol)

Bao, Rui‐Ying; Yang, Jie; Wei, Xin-Feng; Xie, Bin

doi:10.1021/sc500464c

Cited by 133 publications

(118 citation statements)

References 52 publications

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“…Accordingly, plasticizers and nucleating agents were both used to promote the stereocomplexation of PLA. Bao et al reported that the formation of SC crystallites from high-M w PLLA/PDLA blends from the melt by using poly(ethylene glycol) (PEG) as a plasticizer (93). PEG could increase the segmental mobility of the polymer chains which facilitated PDLA to confront with PLLA and enhances the interaction between PLLA and PDLA macromolecules.…”

Section: Stereocomplexation Via Physical Blending Routementioning

confidence: 99%

Crystallization modification of poly(lactide) by using nucleating agents and stereocomplexation

Jiang

Shen

et al. 2016

E-Polymers

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Poly(lactide), PLA, as one of the most promising biopolymers, has been receiving increasing attention in recent years because of its excellent performances in renewability, mechanical properties, biocompatibility and biodegradability. However, its application is limited by its brittleness and low heat distortion temperatures (HDT). The low HDT mainly results from a low crystallization rate and lack of crystallinity after fast processing, e.g. injection molding. Consequently, considerable attention was paid, in recent years, to achieve fast(er) crystallization of PLA. In here, we briefly review the research progress in the crystallization modification of PLA notably by means of adding nucleating agents and stereocomplexation.

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Section: Stereocomplexation Via Physical Blending Routementioning

confidence: 99%

Crystallization modification of poly(lactide) by using nucleating agents and stereocomplexation

Jiang

Shen

et al. 2016

E-Polymers

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“…The content of SC in the cold crystallization enthalpy is expected to be very low because the temperature range of 90−110°C is unfavorable for PLA stereocomplexation but favorable for the cold crystallization of HC-PLA. 10,37 Consequently, seldom HC crystals in the PLLA/PDLA blends were detected by WAXD ( Figure 1); meanwhile, the melt enthalpy of HC-PLA (H m-hc ) from DSC measurement is comparable to the corresponding cold crystallization enthalpy (H cc ). These results evidenced that the X sc should be dominantly from the previous melt compounding process rather than from the cold crystallization.…”

Section: ■ Experimental Sectionmentioning

confidence: 99%

“…37 Good processability, heat-resistance and optical clarity of the PLLA/PDLA/ PMMA ternary blends were achieved without a discussion in mechanical behavior. 36 A SC crystallite network was detected in asymmetric PLLA/PDLA blends with 2−5 wt % of PDLA, 38 and the SC-PLA speeded up the crystallization of the PLLA matrix.…”

Section: ■ Introductionmentioning

confidence: 97%

Superior Performance of Fully Biobased Poly(lactide) via Stereocomplexation-Induced Phase Separation: Structure versus Property

Shen

et al. 2015

ACS Sustainable Chem. Eng.

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Superior properties such as high strength, toughness and transparency of fully biobased poly(lactide) (PLA) were achieved simultaneously without any external modifiers. The improvement in properties is well explained by a structural/morphological study. Stereocomplex PLA (SC-PLA) was obtained by melt compounding asymmetric poly(Llactide)/poly(D-lactide) (PLLA/PDLA) blends at 200°C and confirmed by wide-angle X-ray diffraction (WAXD) and differential scanning calorimetry (DSC) analyses. The SC-PLA domains (d = 950−1200 nm) lead to a physical cross-link network in the PLLA matrix. Rheology and Molau experiment reveal two different microstructures as a function of SC-PLA content, i.e., the connection of SC-PLA domains varied from chain entanglement to direct molecular bridging when the SC-PLA content increased from 10% to 23%. The SC-PLA crystals and the cross-link network reinforced the PLLA matrix, resulting in increases in melt viscosity, modulus and yield strength. Surprisingly, the elongation at break of the PLLA/PDLA blends was increased concomitantly from 11% to 200% with the SC-PLA content up to 10%. The brittle-to-ductile transition is ascribed to the cross-link network and easy deformation/cavitation of the SC-PLA domains. In addition, the asymmetric PLLA/PDLA blends exhibit an average visible light transmittance as high as 70% and the blends showed excellent heat-resistance after a short annealing at 100°C.

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“…[6][7][8][9] It is known from previous study that the crystallization of stereocomplex PLA is generally faster than the homo-crystallization of neat PLLA and PDLA and it also possesses higher nucleation density. [18][19][20][21] Tsuji et al reported that the spherulitic growth, nucleation constant (K g ) and crystallization regime of neat SC-PLA. [15][16][17] Till now, researchers are still trying to achieve high(er) efficiency in the formation of SC crystallites, e.g., by plasticizing or copolymerization.…”

mentioning

confidence: 99%

“…20,28 The NCC, notably at high content, have steric hindrance and hydrogen bonds with PLA molecules, 29 which are not beneficial to the crystal growth. According to crystallization theory of polymers, the crystal growth rate is mainly controlled by chain mobility that is associated with temperatures.…”

mentioning

confidence: 99%

Stereocomplexation kinetics of enantiomeric poly(l-lactide)/poly(d-lactide) blends seeded by nanocrystalline cellulose

Jiang

et al. 2015

RSC Adv.

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COMMUNICATIONThis journal is Stereocomplexation of poly(lactide) was significantly promoted by seeding with nanocrystal cellulose (NCC). A NCCaccelerated and a time-dependent stereocomplex crystal (SC) growth are discovered. Moreover, SC-crystallization regime transitions (Ⅱ Ⅱ Ⅱ Ⅱ-Ⅲ Ⅲ Ⅲ Ⅲ) were identified and both of the nucleation constant (K g ) and transition temperature (T tr ) was strongly increased in the presence of the NCC.

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Enhanced Formation of Stereocomplex Crystallites of High Molecular Weight Poly(l-lactide)/Poly(d-lactide) Blends from Melt by Using Poly(ethylene glycol)

Cited by 133 publications

References 52 publications

Crystallization modification of poly(lactide) by using nucleating agents and stereocomplexation

Crystallization modification of poly(lactide) by using nucleating agents and stereocomplexation

Superior Performance of Fully Biobased Poly(lactide) via Stereocomplexation-Induced Phase Separation: Structure versus Property

Stereocomplexation kinetics of enantiomeric poly(l-lactide)/poly(d-lactide) blends seeded by nanocrystalline cellulose

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