可注射性骨修复材料不饱和聚磷酸酯的光引发交联聚合

通过凝胶含量的测定,研究了紫外光引发不饱和聚磷酸酯(UPPE)与 N-乙烯基吡咯烷酮的共聚交联反应.结果表明:加入光引发剂能够显著增加凝胶含量,安息香乙醚(BE),安息香(BN),2,2-二乙氧基苯乙酮的引发活性较高.光引发剂浓度较低时,增加光引发剂的含量能够显著提高单位时间内的凝胶生成率,但含量过大反而降低凝胶生成率.BN、BE的适宜浓度分别为2.4E^-5(mol/g UPPE)及0.6E^-5(mol/g UPPE).光照较短时间内,UPPE分子量为5960 g/mol的体系具有最高的凝胶生成率,但由于粘度的影响,光照2 min后其凝胶生成率低于UPPE分子量为4040 g/mol的体系.表层对紫外光的吸收降低了光能量,导致深层交联聚合反应速度降低,1.5 mm厚试样通过延长曝光时间,凝胶含量可与1.0 mm厚试样接近,6.0 mm试样曝光24 min后底层仍不能固化.     

芴酮引发光接枝改性LDPE膜的研究

采用紫外光引发接枝表面改性的方法,以芴酮(FL)为引发剂,在低密度聚乙烯(LDPE)薄膜表面上接枝丙烯酸(AA)、甲基丙烯酸(MAA)、丙烯酸甲酯(MA)、甲基丙烯酸甲酯(MMA)、丙烯酰胺(AM)等单体,以赋予薄膜表面新的化学性质.考察了引发剂浓度、紫外光的辐照时间、辐照强度、单体种类对LDPE薄膜接枝程度的影响.结果表明,在一定范围内,增加芴酮浓度,可以提高单体的接枝率,但当芴酮浓度达到5%时,接枝率反而下降.延长辐照时间至4 min和提高紫外光的辐照强度达100 W/m2,均有利于接枝反应的进行.不同单体在LDPE膜上的接枝能力与单体的活性、单体与基材的相容性等因素有关.接枝后,LDPE与水的接触角下降程度不仅与单体在膜上的接枝量有关,还与接枝单体的亲水性能密切相关.     

N-乙烯咔唑电荷转移聚合反应的研究

N-乙烯咔唑(N-VCz)是较强的电子给体,很易进行电荷转移聚合。因此近几年对它的研究颇多。但用同类化合物作为引发剂作系统研究却报道极少。我们制备了2-硝基芴酮(2-MNF)、2,7-二硝基芴酮(2,7-DNF)、2,4,7-三硝基芴酮(2,4,7-TNF)和2,4,5,7-四硝基芴酮(2,4,5,7-TeNF)作为N-VCz的热诱导电荷转移聚合反应的引发剂,并找出了聚合产率与引发剂的用量、引发剂的电子亲合势和N-VCz-引发剂络合平衡常数之间的关系。     

超支化聚(胺酯)的合成及其光固化性能研究

采用甲基丙烯酸酐直接改性和先以丁二酸酐或邻苯二甲酸酐酯化再以甲基丙烯酸缩水甘油酯改性所得到的甲基丙烯酸酯化超支化聚 (胺 酯 )齐聚物在光引发剂存在时紫外光辐照下发生快速聚合反应 ;反应速率和双键转化率随超支化分子的结构不同而变化 ;高度交联的涂膜具有较好的热学性能     

不同引发剂引发SBS接枝马来酸酐的机理研究

采用FTIR和1 H NMR研究了引发剂过氧化二苯甲酰 (BPO)和偶氮二异丁腈 (AIBN)对聚苯乙烯 聚丁二烯 聚苯乙烯 (SBS)接枝马来酸酐 (MAH)的影响 ,讨论了相应的接枝机理 ,通过丁二烯 (PB)段碳碳双键(CC)随接枝率变化的规律进一步验证了机理 .结果表明 ,BPO与AIBN引发接枝的机理不同 ,BPO可引发PB的双键和烯丙位碳氢键 ,但引发烯丙位的速率比引发双键大 ;当BPO浓度达到一定量时 ,大量烯丙位的引发保护了碳碳双键 ,随BPO浓度的增大 ,碳碳双键的含量先减少后增加 .AIBN不能引发PB段烯丙位的碳氢键 ,只能引发双键接枝     

苯乙烯-丁二烯-苯乙烯嵌段共聚物负载Pt催化肉桂醛制备肉桂醇的研究

用紫外光交联的方法制备不同交联度的苯乙烯-丁二烯-苯乙烯嵌段共聚物(SBS)负载Pt的催化膜并探讨其对肉桂醛选择性加氢制备肉桂醇的催化效果.其中催化剂Pt纳米簇用微波法制备,XRD测其平均粒径为3.7 nm.膜载催化剂的负载量、光交联剂三羟甲基丙烷三丙烯酸酯(TMPTA)和光引发剂二苯甲酮(BP)的用量均为3%.用色谱-质谱联用、XRD、紫外分光光度计对膜载催化剂和反应产物进行了表征,结果表明,随着交联度的增加,肉桂醇的催化选择性先增后减,紫外光光照80s时,负载膜交联度23.63%,肉桂醛转化率为91.46,肉桂醇选择性80.98%.质谱分析表明交联度大于30%后,催化产物中开始有膜分解产生的小分子杂质出现,并随交联度的进一步增大而增多;显微镜检测同时说明此时膜结构发生变化,造成肉桂醇选择性的降低.     

2,2′-二邻甲氧基苯基-4,4′,5,5′-四苯基-1,2′-二咪唑复合光引发体系的光聚合动力学研究

本文研究了对2,2′-二邻甲氧基苯基-4,4′,5,5′-四苯基-1,2′-二咪唑(BMOIM)复合光引发体系引发聚合动力学过程.采用紫外光谱仪对引发剂、供氢体、增感剂在紫外区的吸收谱图进行了表征.利用实时红外光谱仪对复合光引发体系引发聚合动力学过程进行实时监测,考察了不同光强、引发剂浓度以及不同官能度单体对反应速率及最终双键转化率的影响.结果表明,在引发剂浓度为0.6%(质量分数)时,20s内双键转换率达到96%,随着引发剂浓度的提高,聚合速率增大.聚合速率以及最终双键转化率随着光强增大而增大;双官能团单体的最终双键转化率比三官能团单体的最终双键转化率要高.     

紫外光共聚交联制备GelMA/PEGDA水凝胶

为避免物理交联明胶基水凝胶的热不稳定性,以及化学方法交联明胶基水凝胶存在的毒性,本文采用丙烯酰化的方法将甲基丙烯酸酐(MA)与明胶反应,在明胶分子链上引入双键结构,并且实现了紫外光照射引发甲基丙烯酰胺基明胶(GelMA)与聚乙二醇双丙烯酸酯(PEGDA)共聚交联制备水凝胶。研究了不同的MA加入量对明胶修饰度的影响,并对GelMA/PEGDA交联水凝胶理化性质进行了测试和分析。结果表明:体系中PEGDA含量增加,能释放更多的自由基,增加交联反应的活性和程度,使水凝胶形成更加致密的三维网络结构。并且GelMA/PEGDA交联水凝胶在37℃比GelMA交联水凝胶更加稳定。GelMA/PEGDA交联水凝胶将来有望成为组织工程的支架材料。     

电子辐照及再结晶P(VDF-TrFE)共聚薄膜红外光谱研究

利用傅立叶变换红外光谱(FT-IR)研究聚偏氟乙烯与聚三氟乙烯共聚薄膜[P(VDF0.80-TrFE0.20)]的电子辐照和再结晶处理过程中分子链构型变化和化学变化, 为深入探讨辐照的改性机理提供依据. 研究发现, 辐照后薄膜分子链全反构型百分含量随吸收剂量增大而迅速减少, TG构型和T3G构型百分含量显著增多. 而当吸收达一定剂量时, 三种构型相对含量基本不再变化, 表明高剂量辐照时样品极性回升不依赖分子链构型中全反型的含量的增多, 而是和高交联度的边界效应有关. 再结晶过程中分子链构型变化恰好和辐照效应产生的变化相反, 并且形成了更加稳定的C=C共轭结构.     

超支化烯丙基聚硅氮烷-巯基化合物体系紫外光固化研究

采用等温差示光量热扫描技术(DPC)研究了超支化烯丙基聚硅氮烷-巯基化合物体系的紫外光固化.对比了超支化聚合物-巯基化合物体系、二官能烯丙基硅氮烷-巯基化合物体系和超支化自聚体系的紫外光固化特性,结果表明超支化-巯基化合物体系可在引发剂浓度低(0.1wt%)、辐照强度低(5mW/cm2)的情况下迅速发生光固化反应;与超支化自聚反应相比固化速率高、双键转化率高;而与低官能-巯基化合物体系相比,由于超支化分子结构的独特性,导致固化速率快,双键转化率偏低.对引发剂浓度、辐照强度和反应温度对固化行为的影响表明,在引发剂浓度不超过0.5wt%和辐照强度不大于30.50mW/cm2时,反应速率分别与引发剂浓度和辐照强度的1/2次方成线性关系.运用带扩散因子的自催化固化动力学模型研究了不同温度下的固化行为,计算出特定条件下的光固化动力学参数,表观总反应级数约为8.76,表观活化能为13.97kJ/mol.     

Photocrosslinking of elastomer systems. II. Ultraviolet light-induced reactions in an EPDM modified by grafting of benzoin derivatives

Photocrosslinking experiments were performed on elastomeric polymer films (EPDM) previously modified by grafting a photosensitive initiator (benzoin derivative) onto the macromolecular backbone. This modification was performed by a series of Friedel–Crafts reactions and the resulting materials were characterized by infrared (IR) spectroscopy in conjunction with model reactions. After ultraviolet (UV) irradiation the photocrosslinked samples were studied by IR spectroscopy in conjunction with the measurement of physical properties. It apperared that grafting the photosensitizer onto the elastomer considerably enhances the crosslinking reaction even with a limited quantity of grafted benzoin derivative. Moreover, the results obtained suggest that the structure of the resulting networks is strongly dependent on the crosslinking process used; that is, curing the elastomer with peroxide or UV irradiation either of a blend of elastomer and photosensitizer or of the same elastomer modified by grafting the chromophore.     

Photocrosslinking of poly(methyl acrylate)s containing the 1,3-dioxolane structure as a pendant group

(2-Ethyl-2-methyl-1,3-dioxolan-4-yl)methyl- and (2-methyl-2-phenyl-1,3-dioxolan-4-yl) methyl acrylates were synthesized and polymerized. The photochemical behavior of the resulting polymers was investigated to determine whether the polymers pending on the 1,3-dioxolane structure were readily crosslinked with ultraviolet (UV) irradiation. The degree of crosslinking was estimated by the weight-loss method by immersion in acetone, with the result that the polymer with an aromatic substituent was more photocrosslinkable than the polymer that bore the aliphatic substituent. The catalytic effect on photocrosslinking of polymers was also studied by using benzoin and cobalt naphthenate. The infrared (IR) spectra of polymers irradiated in air that showed the new band at 3450 cm^?1 were attributed to a hydroxyl group; however, the spectra of polymers irradiated in vacuum displayed little absorption at 3450 cm^?1. To explain the mechanism of crosslinking model compounds were prepared and irradiated with UV light. It was concluded that crosslinking proceeds mainly from the fission of the 1,3-dioxolane ring and the coupling of the yielding radicals, together with autooxidation by atmospheric oxygen.     

不饱和环缩醛/多硫醇体系的光交联

本文研究了3,9-二丙烯基-2,4,8,10-四氧螺[5,5]十三烷(DPTST)和四巯基醋酸季戊四醇酯(PTMA)以苯乙酮衍生物、安息香醚和芳酮作光引发剂时的光交联。通过测定双键在1680cm^-1和巯基在2570cm^-1处的红外吸收随光照时间的变化以及凝胶转化率和硬度随光照时间的变化来表征光交联动力学。 光交联速度与组分配比、光引发剂性质及含量有明显关系。以苯乙酮衍生物和α,α-二甲氧基-α-苯基苯乙酮为光引发剂、DPTST/PTMA的摩尔比为2:1到3:1时,得到较好的实验结果。     

Dielectric properties of some photo crosslinking acrylate ester copolymers

Photo crosslinking due to the photo polymerization of unsaturated acrylic side-groups attached to copolymers of glycidyl methacrylate and methyl methacrylate (GMA-MMA) by reaction with acrylic acid in the presence of benzoin methyl ether as photolabile initiator has been investigated. The composition of these copolymers based on (GMA-MMA, 30:70) were determined by [¹H] NMR spectroscopy. The reactivity ratios for the GMA-MMA system were determined using the Kelen-Tüdös method.

The dielectric properties of copolymers based on GMA-MMA acrylate ester (30:70) and homopolymers of MMA in combination with different polyfunctional acrylate ester monomers before and after exposure to UV irradiation have been studied in a solid state matrix, over a frequency range of 100 Hz to 50 kHz and at temperatures in the range 20–70°C.     

Photocrosslinking of Polyglycidol and Its Derivative: Route to Thermoresponsive Hydrogels

Hydrogels of biologically well‐tolerated, high‐molar‐mass polyglycidol (PGl) and its thermoresponsive derivative poly(glycidol‐co‐ethyl glycidyl carbamate) have been obtained by direct UV crosslinking in the solid state. Polymers with molar masses up to 1.45 × 10⁶ g mol⁻¹ were crosslinked in the presence of benzophenone or (4‐benzoylbenzyl)trimethylammonium chloride as photosensitizers. The photosensitizer concentration was varied from 2 to 10 wt%. The influence of polymer composition and photosensitizer type and amount on the crosslinking efficiency, swelling and temperature behavior of the obtained hydrogels was investigated. The photocrosslinking of PGl and poly(glycidol‐co‐ethyl glycidyl carbamate) led to hydrogels with swelling degrees up to 1700%. The swelling degrees of the hydrogels decreased with the increase of the environmental temperature indicating the thermoresponsive nature of gels. The swelling of obtained gels can be controlled by varying the composition of the copolymer precursor and by the network density.     

Photocrosslinking of polymethoxymethylstyrene and copolymers containing (2,2-disubstituted-1,3-dioxolan-4-yl)methoxymethylstyrene

Methoxymethylstyrene (MSt), (2,2-dimethyl-1,3-dioxolan-4-yl)methoxymethylstyrene (MMSt), and (2-ethyl-2-methyl-1,3-dioxolan-4-yl)methoxymethylstyrene (EMSt) were synthesized and homopolymerized and copolymerized. The photochemical behavior of resultant homopolymers and copolymers with methyl methacrylate (MMA) and styrene (St) were investigated. The infrared (IR) and ultraviolet (UV) spectra of poly(MSt) showed that new bands ascribed to methyl benzoate residue increase rapidly with irrdiation time in air, but no detectable changes are observed in vacuum. The solubility measurements of poly(MSt) indicate that the main factor in crosslinking is the direct coupling of the benzyl radical generated by UV irradiation, which was confirmed by photopolymerization of MMA by means of benzyl methyl ether. It was also found that copolymers of MMSt or EMSt with MMA or St are easily crosslinked by UV irradiation. From the results of solubility measurements of these copolymers irradiated both in air and in vaccum, it was concluded that not only the 1,3-dioxolane structure but also the benzyl methyl ether structure takes part in photocrosslinking, as we expected.     

Photocrosslinking of elastomer systems. I. UV light-induced reactions in a blend of EPDM-benzoin derivatives

Photocrosslinking experiments were performed on elastomeric polymer films (EPDM) that contained benzoin derivatives as photosensitive initiators. Infrared (IR) and ultraviolet (UV) spectroscopy investigations were used in conjunction with physical property measurements. The results all together make it possible to discuss the crosslinking mechanism and pose interesting questions about the reactivity of benzoin derivatives in their excited states in relation to their efficiency in the crosslinking process.     

Ultrasonic absorption and dielectric loss in heterophase block copolymers

A styrene–butadiene–styrene block copolymer (SBS) and a plasticized SBS were studied as a function of temperature by an ultrasonic wave propagation technique at 9 MHz. Two absorption maxima were found for each of these polymers, one being attributable to the primary glass transition of the polybutadiene blocks and the other to that of the polystyrene blocks. The SBS was cast from two different solvents, namely benzene and tetrahydrofuran–methyl ethyl ketone. Parallel dielectric loss measurements were also made of the SBS in the frequency range of 50–10⁵ Hz. Relaxation temperatures determined from the ultrasonic and dielectric loss maxima over a range of measurement frequencies can be correlated by an Arrhenius-type equation. The polystyrene loss peak in the ultrasonic data was found to be much weaker than the polybutadiene loss peak. However, these two peaks were of comparable magnitude in dielectric data. This observation was interpreted as being due to the onset of structured–unstructured (heterophase to homogeneous) transitions at sufficiently high temperatures. Ultrasonic data were also compared with low-frequency dynamic mechanical data (11 Hz) and stress relaxation data (10²–10⁵ sec) through the use of simple time–temperature superposition principle. Considerable discrepancies were found by using this principle, indicating that the heterophase SBS block copolymer was thermorheologically complex.     

Photodegradation of PEEK sheets under tensile stress

The photochemical reaction of poly(ether ether ketone) (PEEK) sheets under tensile loads has been investigated. Two types of UV irradiation tests were carried out in a vacuum environment: with and without a cooling apparatus. Chemical structures, thermal properties, and mechanical properties were measured to clarify photo-deterioration. Chemical analysis based on Fourier Transform Infrared Spectrometry (FT-IR) and X-ray Photoelectron Spectroscopy (XPS) showed photochemical scission caused by UV exposure. Thermal properties, measured by Differential Scanning Calorimetry (DSC), indicated that a crosslinking reaction occurred during the radiation tests. Tensile properties of PEEK sheets after UV radiation clearly showed a tendency to embrittlement affected not only by crosslinking but also by the orientation of molecular chains resulting from the temperature rise of the specimens. Furthermore, applied tensile stress during exposure accelerated molecular scission and disturbed the crosslinking effects of the tensile properties.     

Crosslinking of polystyrene via pendant maleimide groups

Maleimide groups were incorporated into polystyrene by a mild Friedel–Crafts procedure using N-chloromethylmaleimide. Films and solutions of the modified polymer underwent photocrosslinking at a rate that was not appreciably affected by addition of photosensitizer. Free radical, thermal, and Diels–Alder crosslinking were also investigated.