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1.
Poly(trimethylene 2,6-naphthalate) (PTN)/poly(ethylene glycol) (PEG) copolymers were synthesized by the two-step melt copolymerization
process of dimethyl-2,6-naphthalenedicarboxylate (2,6-NDC) with 1,3-propanediol (PD) and PEG. The copolymers produced had
different PEG molecular weights and contents. The structure, thermal property, and hydrophilicity of these copolymers were
studied by proton nuclear magnetic resonance (1H-NMR) analysis, differential scanning calorimetry (DSC), thermogravimetric analysis (TGA), and by contact angle, moisture
content, and instantaneous elastic recovery measurements. The intrinsic viscosity and the instantaneous elastic recovery of
the PTN/PEG copolymers increased with increasing PEG molecular weight and content, whereas the glass transition, melting,
and cold crystallization temperatures, and the heat of fusion of the PTN/PEG copolymers all decreased with increasing PEG
molecular weight or content. The thermal stability of the copolymers was not affected by PEG molecular weight or content.
The hydrophilicity, as determined by contact angle and moisture content measurements of the copolymer films, was significantly
improved with increasing PEG molecular weight and content. 相似文献
2.
The kinetic parameters, including the activation energyE, the reaction ordern, and the pre-exponential factorZ, of the degradation of the copolymers based on the poly(L-lactide) (PLLA) or poly(p-dioxanone-co-L-lactide) (PDO/PLLA) and diol-terminated poly(ethylene glycol) (PEG) segments have been evaluated by the single
heating methods of Friedman and Freeman-Carroll. The experimental results showed that copolymers exhibited two degradation
steps under nitrogen that can be ascribed to PLLA or PDO/PLLA and PEG segments, respectively. However, copolymers exhibited
almost single degradation step in air. Although the values of initial decomposition temperature were scattered, copolymers
showed the lower maximum weight loss rate and degradation-activation energy in air than in nitrogen whereas the higher value
of temperature at the maximum rate of weight loss was observed in air. 相似文献
3.
Poly(trimethylene terephthalate) (PTT)/poly(ethylene naphthalate) (PEN) blends of various compositions were prepared by the
solution-blending and melt-blending methods. The changes in miscibility and crystallization behaviors of the blends upon thermal
treatment above the melting temperature of the blends at 280°C were investigated by using DSC, DMA,1H NMR, and SAXS analyses. Without any thermal treatment, the blend systems were not miscible, and the thermal transitions,
such as glass transition, cold crystallization, and crystal melting of the individual components were observed in the DSC
and DMA analyses. With thermal treatment, though, they became miscible as the thermal transitions of each component disappeared
and single glass transition peaks were observed in the thermal analysis. The chain randomness determined using1H NMR spectroscopy revealed that thermal treatment at 280°C for more than 30 min brought about transesterification reactions
between the PTT and PEN segments resulting in an increase in their miscibility. These results were confirmed by the small
angle X-ray analysis conducted to determine the long period (L), the thickness of the crystalline lamella stack (l
c
), and the thickness of the amorphous region (l
a
). After short thermal treatment, the melt-blended sample followed the values for the individual components. However, with
extended thermal treatment, the blend became homogeneous, possessing different crystalline morphologies which resulted in
different values ofL, l
c
, andl
a
. 相似文献
4.
Ionic conductivity and mechanical properties of a mixed polymer matrix consisting of poly(ethylene glycol) (PEG) and cyanoresin
type M (CRM) with various lithium salts and plasticizer were examined. The CRM used was a copolymer of cyanoethyl pullulan
and cyanoethyl poly(vinyl alcohol) with a molar ratio of 1:1, mixed plasticizer was ethylene carbonate (EC) and propylene
carbonate (PC) at a volume ratio of 1:1. The conductive behavior of polymer electrolytes in the temperature range of 298∼338
K was investigated. The PEG/LiClO4 complexes exhibited the highest ionic conductivity of ∼10−5 S/cm at 25°C with the salt concentration of 1.5 M. In addition, the plasticized PEG/LiClO4 complexes exhibited improvement of ionic conductivity. However, their complexes showed decreased mechanical properties. The
improvement of ionic conductivity and mechanical properties could be obtained from the polymer electrolytes by using CRM.
The highest ionic conductivity of PEG/CRM/LiClO4/(EC-PC) was 5.33×10−4 S/cm at 25°C. 相似文献
5.
Poly(trimethylene terephthalate-co-trimethylene 2,6-naphthalate)s (P(TT-co-TN)s) with various copolymer composition were synthesized,
and their chain structure, thermal property and crystalline structure were investigated by using1H-NMR spectroscopy, differential scanning calorimetry (DSC) and wide-angle X-ray diffraction (WAXD), respectively. It was
found from sequence analysis that all the P(TT-co-TN) copolymers synthesized have a statistical random distribution of TT
and TN units. It was also observed from DSC thermograms that the glass transition temperature increases linearly with increasing
the TN comonomer content, whereas the melting temperature of copolymer decreases with increasing the corresponding comonomer
content in respective PTT- and PTN-based copolymer, showing pseudo-eutectic melting behavior. All the samples melt-crystallized
isothermally except for P(TT-co-66 mol % TN) exhibit multiple melting endotherms and clear X-ray diffraction patterns. The
multiple melting behavior originates from the dual lamellar population and/or the melting-recrystallization-remelting. The
X-ray diffraction patterns are largely divided into two classes depending on the copolymer composition, i.e., PTT and PTNβ-form diffraction patterns, without exhibiting cocrystallization. 相似文献
6.
Min Ho Jee Jin Soo Lee Ju Yong Lee Young Gyu Jeong Doo Hyun Baik 《Fibers and Polymers》2010,11(1):1-7
Poly(ethylene 2,6-naphthalate)/multi-walled carbon nanotube (PEN/MWNT) nanocomposites are prepared by in situ condensation polymerization in the presence of various acid-treated MWNT (a-MWNT) contents and their morphology, rheological
and mechanical properties are investigated as a function of the a-MWNT content. SEM image of a plasma-etched nanocomposite
exhibits that a-MWNTs are dispersed well in the PEN matrix by forming an interconnected network structure. Accordingly, rheological
properties such as complex viscosities and shear moduli of PEN/a-MWNT nanocomposites at the terminal region of low frequency
are much higher than those of pure PEN. Glass transition temperatures of nanocomposites also increase with the increment of
the a-MWNT content, which stems from the reduced chain mobility due to the specific interaction between a-MWNTs and PEN matrix.
Dynamic and tensile mechanical properties of nanocomposites are also higher than those of pure PEN and they increase with
the increment of the a-MWNT content. The highly improved mechanical properties of PEN/a-MWNT nanocomposites are explained
to originate from the interconnected network structure of a-MWNTs in PEN matrix as well as the strong interfacial adhesion
between a-MWNTs and PEN matrix. 相似文献
7.
The thermal behavior, morphology, ester-interchange reaction of Poly(trimethylene terephthalate) (PTT)/Poly(ethylene terephthalate)
(PET) melt blends were investigated over the whole composition range(xPTT/(1-x)PET) using a twinscrew Brabender. The melt
blends were analyzed by differential scanning calorimetry (DSC), nuclear magnetic resonance spectroscopy (13C-NMR), and scanning electron microscopy (SEM). Single glass transition temperature (T
g
) and cold crystallization temperature (T
cc
) were observed in all melt blends. Melt blends were found to be due to the ester-interchange reaction in PTT/PET blend. Also
the randomness of copolymer increases because transesterification between PTT and PET increases with increasing blending time.
This reaction increases homogeneity of the blends and decreases the degree of crystallinity of the melt blends. In PTT-rich
blends, mechanical properties decrease with increase of PET content compared with that of pure PTT. And, in PET-rich blends,
tensile modulus decreases with increase of PTT content, but tensile strength and elongation is similar to that of pure PET. 相似文献
8.
Xian Zhang Xingyou Tian Xiayin Yao Jin Zheng Wentao Liu Yong Li Ping Cui 《Fibers and Polymers》2008,9(3):360-364
The isothermal and non-isothermal shrinkage behaviors of highly oriented Poly(ethylene terephthalate) yarns were investigated.
In isothermal measurements, shrinkage and shrinkage stress firstly monotonously increased due to more and more activated frozen
molecular segments with increasing time and temperature, and then relaxed at high temperature resulting from intermolecular
slipping of micro-fibrils. According to the different contributions of amorphous and crystalline regions to shrinkage behavior,
non-isothermal shrinkage and shrinkage stress curves were fitted by Gauss curves and the entire shrinkage process was divided
into three stages: contraction of micro-fibrils, contraction of extended interfibrillar tie molecules and relative displacement
of micro-fibrils. 相似文献
9.
Low molecular weight copolymers of maleic anhydride and vinyl acetate were prepared to develop formaldehyde free cross-linking
agents. Since lower molecular weight is favorable for efficient penetration of the finishing agent into the cotton fibers
in the padding process, the concentration of the initiator, chain transfer agent and the monomer ratios were varied to obtain
copolymers of low molecular weights. The prepared polymers were characterized by GPC,1H-NMR, FTIR, DSC and TGA. Copolymers of molecular weights of 2 000 to 10 000 were obtained and it was found that the most
efficient method of controlling the molecular weight was by varying the monomer ratios. Poly(maleic anhydride-co-vinyl acetate)
did not dissolve in water, but the maleic anhydride residue hydrolyzed within a few minutes to form poly(maleic acid-co-vinyl
acetate) and dissolved in water. However, the maleic acid units undergo dehydration to form anhydride groups on heating above
160 °C to some extent even in the absence of catalysts. The possibility of using the copolymers as durable press finishing
agent for cotton fabric was investigated. Lower molecular weight poly(maleic anhydride-co-vinyl acetate) copolymers were more
efficient in introducing crease resistance, which appears to be due to the more efficient penetration of the crosslinking
agent into cotton fabrics. The wrinkle recovery angles of cotton fabrics treated with poly(maleic anhydride-co-vinyl acetate)
copolymers were slightly lower than those treated with DMDHEU and were higher when higher curing temperatures or higher concentrations
of copolymer were used, and when catalyst, NaH2PO2, was added. The strength retention of the poly(maleic anhydride-co-vinyl acetate) treated cotton fabrics was excellent. 相似文献
10.
Poly(ethylene terephthalate) fabrics were metallized through electroless plating of copper. The copper plating was performed
on palladium-decorated polyaniline surfaces, and polyaniline was present as an intermediate layer on fabrics to facilitate
palladium formation. Different oxidation states of polyaniline were tested in their efficacy in Pd (II) reduction and subsequent
Cu plating. X-ray photoelectron spectroscopy was used to monitor the surface changes along the metallization procedure, and
surface resistance was measure to probe the electrical properties of the metallized fabrics. 相似文献
11.
The thermal reaction of acetoacetanilide in the presence of aniline or phenol yielded carbanilide in quantitative yields.
This reaction was applied to the synthesis of polyurea. Bisacetoacetamides were prepared from diamines and diketene in DMF.
They were thermally polymerized in the presence of phenol or a diamine (6FDA) to yield polyureas of low molecular weights.
The polymers were soluble in DMSO and NMP.1H-NMR analysis showed that they had amino group terminated structures. Poly(urea-imide) was synthesized by the reaction of
an oligourea diamine with pyromellitic dianhydride in NMP. The concentration of terminal amino groups was determined by an
acid-base titration. The thermal property of poly(ureaimide) was evaluated by thermogravimetric analysis (TGA). Initial decompisition
took place at 332–350°C. 相似文献
12.
Thermotropic liquid crystalline polymer made up of poly(p-hydroxybenzoate) (PHB)-poly(ethylene terephthalate) (PET) 8/2 copolyester, poly(ethylene 2,6-naphthalate) (PEN) and PET were
mechanically blended to pursue the liquid crystalline phase of ternary blends. Complex viscosities of blends decreased with
increasing temperature and PHB content. DSC thermal analysis indicated that glass transition temperature (Tg) and melting temperature (Tm) of blends increased with increasing PHB content. Both tensile strength and initial modulus increased with raising PHB content
and take-up speed of monofilaments. In the WAXS diagram, only PEN crystal reflection at 2Θ=15.5o appeared but PET crystal reflection was not shown in all compositions. The degree of transesterification and randomness of
blends increased with blending time but sequential length of both PEN and PET segment decreased. 相似文献
13.
Comparative stability studies of poly(2-methyl-2-oxazoline) and poly(ethylene glycol) brush coatings
Pidhatika B Rodenstein M Chen Y Rakhmatullina E Mühlebach A Acikgöz C Textor M Konradi R 《Biointerphases》2012,7(1-4):1
Non-fouling surfaces that resist non-specific adsorption of proteins, bacteria, and higher organisms are of particular interest in diverse applications ranging from marine coatings to diagnostic devices and biomedical implants. Poly(ethylene glycol) (PEG) is the most frequently used polymer to impart surfaces with such non-fouling properties. Nevertheless, limitations in PEG stability have stimulated research on alternative polymers that are potentially more stable than PEG. Among them, we previously investigated poly(2-methyl-2-oxazoline) (PMOXA), a peptidomimetic polymer, and found that PMOXA shows excellent anti-fouling properties. Here, we compare the stability of films self-assembled from graft copolymers exposing a dense brush layer of PEG and PMOXA side chains, respectively, in physiological and oxidative media. Before media exposure both film types prevented the adsorption of full serum proteins to below the detection limit of optical waveguide in situ measurements. Before and after media exposure for up to 2 weeks, the total film thickness, chemical composition, and total adsorbed mass of the films were quantified using variable angle spectroscopic ellipsometry (VASE), X-ray photoelectron spectroscopy (XPS), and optical waveguide lightmode spectroscopy (OWLS), respectively. We found (i) that PMOXA graft copolymer films were significantly more stable than PEG graft copolymer films and kept their protein-repellent properties under all investigated conditions and (ii) that film degradation was due to side chain degradation rather than due to copolymer desorption. 相似文献
14.
Poly(ethylene terephthalate) (PET) and poly(ethylene glycol) (PEG) copolymers cross-linked with pentaerythritol, a four-way
cross-linker, are prepared to compare their mechanical and shape memory properties with the one cross-linked by glycerol.
Composition of PEG and pentaerythritol is varied to search for the one with the best mechanical and shape memory properties.
The highest shape recovery rate is observed for the copolymer composed of 30 mol% PEG-200 and 2.5 mol% pentaerythritol. Four-way
cross-linking by pentaerythritol significantly improves shape recovery rate and retention of high shape recovery rate after
repeated use compared to the one cross-linked by glycerol, a three-way cross-linker, and difference and advantage of additional
cross-linking point are discussed. 相似文献
15.
The thermal degradation of poly(ethylene terephthalate-co-isophthalate)s (PETIs) is investigated by using isothermal thermogravimetric analysis at the temperature range of 280–310°C.
The degradation rate of PETIs is increased as the mole ratio of ethylene isophthaloyl (EI) units in PETIs increases. The activation
energies for the thermal degradation of poly(ethylene terephthalate), PETI(5/5), and poly(ethylene isophthalate) are 33.4,
16.6, and 8.9 kcal/mole, respectively. The degradation rate of PETIs is influenced by their volatile cyclic oligomer components
formed during the polymerization and the thermal degradation. It is simulated by the rotational isomeric state model that
the content of cyclic dimer in PETIs, which is the most volatile cyclic oligomer component, increases with the EI units in
PETIs. 相似文献
16.
Ingrid Silva Barberino do Nascimento Jane Sélia dos Reis Coimbra João Paulo Martins Luis Henrique Mendes da Silva Renata Cristina Ferreira Bonomo Mônica Ribeiro Pirozzi Aline Cinquini 《Journal of Cereal Science》2010
The partitioning behavior of the glutenin proteins was evaluated in aqueous two-phase systems (ATPSs) formed by sulfate salts (lithium or sodium) and poly(ethylene glycol) (PEG) with average molar mass of 1500 g mol−1 or 4000 g mol−1. The partition coefficients for the glutenin proteins in each ATPS were investigated as a function of the temperature (278.2 K–318.2 K), tie line length (TLL) and electrolyte nature. In all ATPS, the majority of glutenin proteins spontaneously concentrate in the polymer-rich phase (Kp > 1). The partition coefficient is very dependent on the salt nature and the ATPS formed by PEG + lithium sulfate presents higher Kp values as compared with the ATPS formed PEG + sodium sulfate. An increase of molar mass of polymer promotes a decrease of Kp. Thermodynamic parameters of transfer (ΔtrG, ΔtrH and ΔtrS) were obtained by the application of the Van’t Hoff equation (VHE). The values obtained by VHE indicate that the transfer of glutenin proteins to the polymer-rich phase has an enthalpic origin. 相似文献
17.
Semi-interpenetrating polymeric network (semi-IPN) hydrogels based on poly(2-hydroxyethyl methacrylate) (PHEMA) and poly(2-hydroxyethyl
methacrylate-co-sodium methacrylate) [P(HEMA-co-SMA)], and chitosan with different molecular weights were prepared by crosslinking
with ethylene glycol dimethacrylate (EGDMA) and poly(ethylene glycol) diacrylate (PEGDA) and their gelation time, water content,
mechanical properties, and morphology were investigated. In consideration of the influence of the molecular weight of chitosan,
there is no big difference in the water content, while tensile properties and compressive modulus increased as the molecular
weight of chitosan increased. The water content increased and tensile properties and compressive modulus decreased with increasing
SMA concentration. Considering the effect of the crosslinking agent, PEGDA had higher water content and lower tensile and
compressive moduli than EGDMA. It is suggested that PHEMA/chitosan and P(HEMA-co-SMA)/chitosan semi-IPN hydrogels with different
structures and physical properties can be prepared depending on the molecular weight of chitosan, the copolymerization with
SMA, and the crosslinking agent type. 相似文献
18.
Poly(ethylene oxide) (PEO) nanocomposites containing pristine or functionalized graphene nanoplatelets (FGnP) prepared via solution blending and thermal and mechanical properties of nanocomposites were investigated. Chemical functionalization of graphene nanoplatelets was conducted through an amidation reaction between carboxylic acid groups of acidified graphene and hydroxyl groups of polyethylene glycol (PEG). An interfacial linkage and a good dispersion of FGnP was observed via scanning electron microscope (SEM). Differential scanning calorimetry (DSC) analysis revealed that the degree of crystallinity of samples decreased by addition of graphene nanoplatelets, while the size of spherulites increased as indicated by polarized optical microscope (POM). A lower degree of crystallinity and larger spherulites were detected in the case of FGnP. Filler/matrix interfacial adhesion was also remarkably influenced the mechanical properties of PEO as an effective reinforcement of matrix obtained upon the addition of FGnP nanosheets compared to untreated graphene. 相似文献
19.
Conductive polyaniline (PAn)/poly(ethylene terephthalate) (PET) composite fibers were prepared by chemical polymerization
of aniline in the presence of PET fibers using benzoyl peroxide (Bz2O2) in organic solvent/aqueous hydrochloric acid mixtures. The effects of polymerization conditions such as organic solvent/water
ratio, oxidant, aniline and hydrochloric acid concentrations and temperature were investigated on the amount of PAn deposited
on PET fiber and the electrical surface resistance of composite fibers. The maximum PAn content and the lowest electrical
surface resistance of composite fibers were observed at HCl concentrations of 0.5 mol L−1. The properties of PAn/PET composite fibers such as density, diameter, tensile strength and breaking elongation were also
investigated in comparison with those of pure PET. Characterization of conductive composite fibers was carried out by FTIR,
TGA, SEM techniques, surface resistance measurements, and cross section images taken by optical microscope. 相似文献
20.
To synthesize a series of novel temperature sensitive hydrogels, N-tert-butylacrylamide (NtBA) and acrylamide (AAm) were used as the comonomers and polymerized by free-radical crosslinking copolymerizarion. The poly(ethylene glycol) (PEG) with molecular weight of 400, 4000 and 6000 g·mol-1 was used as the porogen. The equilibrium swelling capacity, swelling/deswelling kinetics and diffusion parameters of obtained hydrogels were systematically evaluated. As revealed by SEM micrographs, the macroporous structure of hydrogels can be modulated by the crosslinking level, PEG molecular weight and dosage. FTIR analysis demonstrated that the porogen PEG was completely leached out of the gel matrix. Compared with the conventional hydrogels, the PEG-modified (PGel) hydrogels exhibited enhanced temperature sensitivity and superior kinetics during the swelling, deswelling and pulsatile swelling processes. Controlled release of salicylic acid also demonstrated the good usability of PGel hydrogel, which rendered it great potential for controlled drug delivery systems. 相似文献