纳米金-4,4'-二巯基二苯硫醚自组装膜修饰金电极的制备及其电化学行为

纳米金粒子,因其良好的光学、电学特性和生物相容性,受到分析化学工作者的极大关注.本研究利用4,4'-二巯基二苯硫醚(DMDPSE)中两端巯基的S原子与Au表面强烈作用形成Au-S键,构筑了纳米金-4,4'-二巯基二苯硫醚自组装膜修饰金电极(NG/DMDPSE/Au),然后研究了该电极的电化学行为.这不仅对纳米材料构建在基质表面提供了一个有效途径,而且对纳米粒子制成具有特殊功能的生物传感器具有一定的参考价值.     

巯基/(甲基)丙烯酸(甲基)烯丙酯光固化特性

通过对羧酸盐法改进后合成同时含有高活性的丙烯酸酯型C=C和低自由基活性的烯丙基型C=C的烯类单体(甲基)丙烯酸(甲基)烯丙酯,以实现(甲基)丙烯酸酯类紫外光固化与巯/烯光聚合结合在二元体系中;并以1173为光引发剂,利用实时红外(RT-IR)跟踪此类烯烃与三羟甲基丙烷三(3-巯基丙酸酯)(TMMP)光固化过程,探究烯烃结构、光强和引发剂用量对含有两类碳碳双键的烯类单体与巯基化合物二元体系的光固化行为的影响.研究发现,这类二元巯-烯光聚合反应中均有(甲基)丙烯酸酯双键的反应活性最大,(甲基)烯丙基次之,巯基的反应活性最小;甲基取代在烯烃的不同C=C上,对巯-烯光固化特性影响不同,甲基取代在烯丙基C=C上比甲基取代在丙烯酸基C=C上对巯-烯光固化行为影响更大;巯基最终转化率随甲基取代基数目增多而减少;丙烯酸甲基烯丙酯体系中两类双键(丙烯酸型/甲基烯丙基型)反应活性几乎相同且均具有高的转化率.     

含氟及硫醚基团聚酰亚胺光波导材料的合成及表征

通过分子设计,合成了含三氟甲基及硫醚基团的二胺单体4,4'-双(4-胺基-2-三氟甲基苯硫基)二苯硫醚(6FSEDA),利用其与6种芳香二酐单体:3,3',4,4'-联苯四羧酸二酐(BPDA)、4,4'-氧双邻苯二甲酸酐(ODPA)、3,3',4,4'-二苯酮四酸二酐(BTDA)、4,4'-(六氟异丙基)-苯二酸酐(6FDA)、3,3',4,4'-二苯硫醚四酸二酐(DTDA)及3,3',4,4'-二苯砜四酸二酐(DSDA)经一步法合成了一系列含氟及硫醚基团的聚酰亚胺(PI),并对其结构与性能进行了研究.结果表明,该系列PI的玻璃化温度Tg(DSC)在199.8～231.7℃范围,5%和10%热失重的温度(N2氛围)分别在491℃和517℃以上,在400～700 nm的可见光波长范围内具有优异的光学透明性,在光通讯波段(1310 nm和1550 nm处)均无明显吸收,且在这两个波长处测得的平均折射率范围分别为1.5401～1.6142和1.5389～1.6124,在波长632.8 nm测得的双折射范围为0.0012～0.0045.可见,含氟及硫醚基团聚酰亚胺薄膜具有良好的热稳定性和光学性能.     

含2,2′,4-三(2-氯苯基)-5-(3,4-二甲氧基苯基)-4′,5′-二苯基-1,1′-双咪唑光引发体系的光聚合动力学研究

2,2′,4-三(2-氯苯基)-5-(3,4-二甲氧基苯基)-4′,5′-二苯基-1,1′-二咪唑(CZ-HABI)是一种高效的光引发剂,其结构通过傅里叶红外光谱仪、核磁共振仪、紫外吸收光谱进行表征.复合引发体系(PI)由光引发剂CZ-HABI、增感剂4,4′-双(二乙氨基)苯甲酮(EMK)、供氢体N-苯基甘氨酸(NPG)组成,利用实时红外(RT-IR)对该复合光引发体系进行了光聚合反应动力学研究,结果表明:在没有供氢体条件下,基本上没有引发效果,增加供氢体后,引发效率大幅增加;增加复合光引发体系用量能提高光聚合反应的双键转化率,且最大聚合速率与[PI]1/2成正比;随着光强的增强,单体的双键转化率与最大反应速率均增大;复合光引发体系引发双丙烯酸酯类单体的最终双键转化率比三丙烯酸酯类单体要高.复合光引发体系的引发效率比ITX/EDAB光引发体系的引发效率高,与1-羟基环己基苯基甲酮(184)、2-羟基-2-甲基-1-苯基-1-丙酮(1173)的引发效果相近.     

过硼酸钠对于有机物的氧化作用的研究 I:过硼酸钠对于芳胺和芳硫醚的氧化作用

研究了用过硼酸钠氧化邻位和对位硝基苯胺. 把胺基氧化成硝基、过硼酸钠还能氧化4-氨基-4'-硝基二苯基硫醚和2-氨基-2'-硝基二苯基硫醚. 得到4,4'-二硝基二苯砜和2,2'-二硝基二苯亚砜.     

水性可紫外光固化的硫代聚氨酯分散体的制备

本文利用巯基-点击化学制备了一系列水性可光固化的硫代聚氨酯分散体,即通过连续的巯基-异氰酸酯和巯基-迈克尔加成反应分别合成硫代聚氨酯和聚硫醚：首先,二异氰酸酯与过量的二元硫醇反应生成端基为巯基的硫代聚氨酯低聚物,然后与合成的二丙烯酸酯单甲基丙烯酸酯进行巯基-迈克尔加成反应,得到侧基为甲基丙烯酸酯的硫代聚氨酯树脂,最后,巯基乙酸与端基上的丙烯酸酯反应,提供树脂的亲水基团。将树脂分散在水中后,得到半透明的可光固化硫代聚氨酯分散体。树脂的主链上含有硫醚键,可以有效克服氧阻聚效应,得到较高的转化率;侧基上带有很多可光聚合的甲基丙烯酸酯基团,光聚合后固化膜的交联密度非常高,因而也具有较高的玻璃化转变温度。     

氟取代聚芳醚酮低温合成及其结构研究

通过傅克酰基化反应合成4,4'-二(4-氟苯甲酰基)二苯醚、4,4'-二(五氟苯甲酰基)二苯醚、4,4'-二(4-氟苯甲酰基)二苯硫醚以及4,4'-二(五氟苯甲酰基)二苯醚4种长链双卤单体,并进一步制备了含二氮杂萘酮聚芳醚酮聚合物.通过多氟取代双卤单体在含二氮杂萘酮聚芳醚酮聚合物主链中引入氟原子.多氟取代双卤单体具有多...     

新型含硫高折光指数光学树脂单体MPSDMA的合成及其共聚树脂的性能研究

通过氯磺化反应,还原反应和低温相转移仙化反应合成了一种新型光学树脂单体合成 4,4′-二巯基二苯硫醚双甲基丙烯酸酯（MPSDMA）,。成功地将苯环、含硫基团和双键引入光学树脂单体结构中,将MPSDMA分别与甲基丙烯酸甲酯（MMA）和苯乙烯（St)通过自由基共聚制成透明树脂,共聚树脂性能的研究表明该类新型光学树脂具有高折光指数,高表面硬度等特点。     

可见光响应的荧光增白剂基多功能光引发体系

将4,4’-双(苯并噁唑-2-基)二苯乙烯(BBS)、7-二乙氨基-4-甲基香豆素(C 1)、双-(三嗪基氨基)-二苯乙烯二磺酸(CBUS 450)、4,4’-双(2-磺酸苯乙烯基钠)联苯(CBS X)和1,4-双(2-苯并噁唑基)萘(OB 7)等5种含有不同荧光发射基团的商用荧光增白剂分别与二苯基碘鎓六氟磷酸盐(IOD)组成二元光引发体系,再与N-乙烯基咔唑(或叔胺)组成三元光引发体系,在可见光发光二极管(LED)光源辐照下,通过自由基聚合反应制备丙烯酸酯树脂,同时通过阳离子/自由基同步聚合反应制备互穿网络聚合物.利用紫外-可见分光计荧光分光计、电子自旋共振波谱仪、傅里叶变换红外光谱仪、扫描电子显微镜和原子力显微镜对荧光增白剂和互穿网络聚合物进行了表征.研究结果表明,荧光增白剂在可见光LED的照射下可作为具有高效能的多功能光引发剂.其中苯并噁唑-萘衍生物(OB 7)、三嗪茋衍生物(CBUS 450)、二苯乙烯-联苯衍生物(CBS X)和香豆素衍生物(C 1)基二元光引发体系和三元光引发体系即使在空气中也表现出了优异的光引发能力.     

蓖麻油基巯烯基紫外光固化胶粘剂的研制与性能研究

以异佛尔酮二异氰酸酯(IPDI)、蓖麻油(CO)、丙烯酸羟丙酯(HPA)为原料,采用熔融缩聚法合成出端丙烯酸酯基预聚体;同时以CO和3-巯基丙酸(3-MPA)为原料采用酯化反应合成出端巯基光引发单体。将端不饱和双键聚氨酯丙烯酸酯预聚体与所制备巯基丙酸酯按一定比例复合,加入光引发剂,在紫外光照射下,预聚体中双键与光引发单体中巯基发生巯基-烯点击反应,制得聚氨酯丙烯酸酯固化膜。采用核磁共振氢谱(1 HNMR)、红外光谱(FT-IR)、热重分析(TG)和光量热系统(Photo-DSC)等手段对合成预聚体、巯基丙酸酯及固化膜结构和性能进行了分析表征。结果表明:在紫外光辐照下,预聚体中不饱和双键与巯基化合物中巯基间发生了自由基加成反应,固化时间在60s以内,且所制备UV固化膜具有良好的机械性能和热稳定性。     

新型红外光引发剂的激光光聚合研究

目前对紫外区敏感的光聚合体系的研究已经比较成熟 ,并且在工业生产中得到了实际应用 .对可见光区的光聚合体系的研究也已引起了不少研究者的关注 .而有关近红外 /红外区敏感的光聚合体系的报道还很少 .已经商业化的红外半导体激光器具有体积小、价格便宜、操作简便、性能稳定等特点 ,配合计算机布线技术 ,可大大提高生产效率 ,这些优点使得与之匹配的对红外区域敏感的光聚合体系具有广阔的应用前景[1 ] ,尤其是在计算机直接制版 (Ｃｏｍｐｕｔｅｒ ｔｏ ｐｌａｔｅｓ,ＣＴＰｓ)领域[2 ] .Ｃｈａｔｔｅｒｊｅ等曾经研究了用阳离子菁染料与不…     

Molecular and crystalline structure of 2,2-di(phenyl-4-ol)propane dimethacrylate, 2,2-di(phenyl-4-ol)propane diacrylate,pyrocatechol diacrylate,and hydroquinone diacrylate: Reactivity in melts

The X-ray diffraction analysis of 2,2-di(phenyl-4-ol)propane dimethacrylate, 2,2-di(phenyl-4-ol)propane diacrylate, pyrocatechol diacrylate, and hydroquinone diacrylate has shown that oligomer molecules within crystals are packed in stacks, where (meth)acrylate fragments of neighboring molecules are parallel to each other. The minimum distances between the centers of double bonds C=C of (meth)acrylate fragments in 2,2-di(phenyl-4-ol)propane dimethacrylate, 2,2-di(phenyl-4-ol)propane diacrylate, pyrocatechol diacrylate, and hydroquinone diacrylate are 4.208, 4.012, 3.621, and 3.739 describing the reduced rate of photopolymerization of molten monomers (with 9,10-phenanthrenequinone used as a photoinitiator) versus conversion show maxima at degrees of polymerization of 8, 16, 22, and 38%; the limiting conversions are 29, 36, 44, and 86%, respectively. The maximum reduced rates of photopolymerization of 2,2-di(phenyl-4-ol)propane dimethacrylate and diacrylate are nearly the same, whereas the rates of photopolymerization of hydroquinone diacrylate and pyrocatechol diacrylate are higher by a factor of 4 than those of the corresponding dimethacrylates.     

基于α-羟烷基苯酮(HAPK)可聚合大分子光引发剂的合成及其引发三丙二醇双丙烯酸酯(TPGDA)光聚合动力学的研究

以α-羟烷基苯酮(HAPK)、甲苯-2,4-二异氰酸酯(TDI)、聚乙二醇600(PEG600)和丙烯酸-β-羟乙酯(HEA)为原料,通过3步反应,合成了一种可聚合大分子光引发剂:HAPK-TDI-PEG600-TDI-HEA(HTPTH).用IR对反应过程进行了监测.通过Photo-DSC研究了HTPTH引发三丙二醇双丙烯酸酯(TPG-DA)光聚合动力学,考察了光强、引发剂浓度对TPGDA光聚合动力学的影响.结果表明,随着引发剂浓度和光强的增大,最大反应速率对应的转化率、单体最终转化率、最大反应速率都增大,达到最大反应速率所需的时间减小.     

Combining photo-cleavable and hydrogen-abstracting groups in quinoxaline with thioether bond as hybrid photoinitiator

We synthesized four diphenylquinoxaline derivatives(SQs) with phenyl-thioether units, which combine photo-cleavable and hydrogen-abstracting groups in one molecule. The photochemistry and photopolymerization of SQs were investigated. SQs possess suitable UV-vis absorption in the range of 350-400 nm with high extinction coefficients. UV-vis and HPLC-MS spectra revealed that C–S bond in phenyl-thioether group of SQs can be broken by irradiation of UV-light. Photolysis and photopolymerization experiments showed that SQs can be used as photo-cleavable photointiators,their photoinitiating efficiency can be enhanced by hydrogen donor. As photo-cleavable photoinitiators,SQs could initiate hexamethylene diacrylate(HDDA) very efficiently with the double bond conversion(DBC) of 80%. In the presence of ethyl-4-(dimethylamino) benzoate(EDB) as coinitiator, photoinitiator systems initiated photopolymerization of commercial acrylate monomers with higher double bond conversion than 90%. These characteristics make SQs potential photoinitiators in photo-curing field.     

Alkyl chain length effects on copolymerization kinetics of a monoacrylate with hexanediol diacrylate

Copolymerizations of hexanediol diacrylate with three monoacrylates were analyzed using high-throughput conversion analysis to elucidate the effects of varying alkyl pendant groups at different compositions. Each analyzed copolymerization system contained hexanediol diacrylate (HDDA), and copolymerizations with 30-60 wt % monoacrylate reached nearly complete conversion after 30 s of exposure time. For higher amounts of monoacrylate, the photopolymerization kinetics of the hexyl acrylate (HA) copolymerization were significantly slower than the copolymerization with either ethylhexyl acrylate (EHA) or dodecyl acrylate (DDA). With 20 wt % HDDA, conversion at 30 s with a comonomer of HA was 62+/-3%, as compared to 76+/-3% and 84+/-3% when copolymerized with EHA and DDA, respectively. Model kinetic parameters were estimated for all four monomer systems, with HDDA monomer parameters found to be within the same error when estimated from any of the copolymerizations. With kinetic parameters for each monomer, comparison maps showing the difference in conversion between two copolymerizations were generated. These comparison maps allow for an assessment of two comonomer systems to determine the optimal photopolymerization conditions. Slower photopolymerization kinetics for HA occur at nearly all compositions containing monoacrylate, with the largest reduction occurring between 20 and 40 wt % monoacrylate.     

聚合物分散液晶单体4,4′-二[6-(丙烯酰氧基)己氧基]联苯的合成

利用丙烯酰氯代替丙烯酸钾与4,4′-二(6-溴己氧基)联苯反应改进了制备4,4′-二[6-(丙烯酰氧基)己氧基]联苯(BAB6)的合成路线。改进前的反应温度较高,中间产物溶解度小,产物呈淡黄色,收率仅12.4%;改进后在室温反应,中间产物溶解度较高,产物呈白色,收率达到46.8%。采用1HNMR、13CNMR和元素分析对中间体和BAB6结构进行了表征。由改进后合成的单体,制备了具有快速响应的聚合物分散液晶(PDLC)膜,响应时间约2ms。扫描电子显微镜观察的结果表明,PDLC中形成了聚合物网络结构。     

Amphiphilic polymeric Michler's ketone (MK) photoinitiators (APMKs) containing PEO chain and coinitiator amine

A series of amphiphilic polymeric Michler's ketone (MK) photoinitiators (APMKs) were synthesized by incorporating PEO short chain, MK moiety, and coinitiator amine into the same polymeric chain. APMKs possess good amphiphilic ability and become water‐soluble when the molar ratio of MK(pipaz)₂/PEO/piperazine is 2:3:1. UV–Vis measurement shows that APMKs possess the same characteristic absorption to MK derivatives. The photopolymerization of three monomers with different functionality and hydrophilicity, polyethylene glycol diacrylate (PEGDA), phenoxy ethyl acrylate (AMP‐10G), and 2,2‐bis[4‐(acryloxypolyethoxy)phenyl]propane (A‐BPE‐10) initiated by APMKs was investigated by photodifferential scanning (photo‐DSC). The results show that APMKs can photoinitiate the polymerization of hydrophilic and hydrophobic monomers efficiently. As for photopolymerization of water‐soluble PEGDA, the final conversion is higher than 94%. Therefore, APMKs will be expected to find potential in many fields. Copyright © 2009 John Wiley & Sons, Ltd.     

The synthesis of new liquid-crystalline mesogens containing bicyclohexane units

The synthesis and mesomorphism characterization of new thermotropic derivatives of cis,trans and trans,trans-4,4′-bicyclohexyl-bis[4-(6-hydroxyhexan-1-oxy)benzoate] are described. This last intermediate produces a liquid crystalline diacrylate, with lower refractive indices than the well-known aromatic analogues, that allows to obtain polymeric network via UV photopolymerization. The acrylate is very useful to optimize the contrast of polymer dispersed liquid crystals (PDLCs). Moreover, the acylation of the intermediates previously mentioned, with alkanoic or perfluoro alkanoic acids give low-molecular liquid crystals that exhibit a broad temperature range of mesophases.     

1,3-Dioxine diphenyl as a novel initiator for free-radical photopolymerization

1,3-Dioxane diphenyl, a novel photoinitiator for free-radical polymerization, was synthesized and characterized. UV-Vis absorption spectroscopy was used to investigate its photochemical behavior during the photophysical process. The photopolymerization kinetics of 1,3-dioxane diphenyl was studied by realtime infrared spectroscopy. There was an optimum curing rate with the increase of 1,3-dioxane diphenyl concentration. Both the polymerization rate and final conversion increased with the increase in light intensity. 1,3-Dioxane diphenyl was the most efficient photoinitiator for tripropylene glycol diacrylate and other acrylate monomers. 1,3-Dioxane diphenyl was a more effective photoinitiator than benzophenone/ethyl-4-dimethylaminobenzoate.     

Novel polymeric,thio‐containing photoinitiator comprising in‐chain benzophenone and an amine coinitiator for photopolymerization

A novel thio‐containing diamine with a benzophenone structure, 4‐amino‐4′‐[4‐aminothiophenyl]benzophenone (AATBP), was synthesized. Two kinds of polymeric photoinitiators, PUPIA and PUPI, were synthesized through the polycondensation of toluene‐2,4‐diisocyanate with AATBP and/or N‐methyldiethanolamine (MDEA). A macroamine, PUPA, was also synthesized for comparison. Fourier transform infrared, ¹H NMR, and gel permeation chromatography analyses confirmed the structures of all the polymers. The ultraviolet–visible spectra of PUPIA, PUPI, and AATBP were similar, and all exhibited the maximal absorption above 325 nm. The photopolymerization of two monomers with different functionalities, poly(propylene glycol)diacrylate and trimethylolpropane triacrylate initiated by PUPIA, PUPI/MDEA, PUPI/PUPA, AATBP/MDEA, and AATBP/PUPA, was studied through differential scanning photocalorimetry. The results showed that both PUPIA and PUPI/MDEA had high photoefficiency, and their low‐molecular‐weight counterparts could hardly initiate the photopolymerization. © 2006 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem 45: 576–587, 2007