含联苯二氮杂萘酮结构聚芳酰胺的合成与表征

用类双酚单体4[4(4羟基苯基)苯基]2H二氮杂萘1酮(DHPZpP)与对氯苯腈进行亲核取代反应后碱性水解合成一种扭曲、非共平面杂环芳香二酸,4{4[4(4羧基苯氧基)苯基]苯基}2(4羧基苯基)二氮杂萘1酮(2).由二酸2和各种芳香二胺进行膦酰化缩聚反应制得了一系列的含联苯二氮杂萘酮结构聚芳酰胺,其特性粘数在0.42～0.72dLg之间.该类聚芳酰胺均可溶解于NMP、DMAc和DMSO等极性有机溶剂中,并且可用DMAc为溶剂制成具有良好机械性能的透明聚合物薄膜,聚合物薄膜的拉伸强度为80～89MPa.该类聚芳酰胺具有优异的耐热性,玻璃化转变温度Tg在298～328℃之间,10%的热失重温度(Td)在470℃以上.     

新型可溶性聚芳酰胺及其共聚物的合成与性能研究

采用新型二胺 1,2 二氢 2 (4 氨基苯基 ) 4 [4 (4 氨基苯氧基 ) 苯基 ] 二氮杂萘 1 酮与对苯二甲酸、间苯二甲酸、萘二酸进行均聚或共聚 ,所得聚芳酰胺的Tg 均高于 30 0℃ ,且易溶于非质子极性溶剂中 ,聚合物的特性粘数为 1 2 6～ 1 5 1dL g(2 5℃ ,NMP) ,拉伸强度为 6 2～ 89MPa ,断裂伸长率为 5 %～ 9% ,拉伸模量为 2 2～ 2 9GPa ,电阻系数为 10 1 4 ～ 10 1 6     

新型氯取代含杂萘联苯结构可溶性聚芳酰胺的合成、表征和性能

以类双酚单体4-(3-氯-4-羟基-苯基)-2H-二氮杂萘-1-酮(DHPZ-OC)和对氯苯腈为原料进行亲核取代反应合成二腈化合物4-[3-氯-4-(4-氰基苯氧基)苯基]-2-(4-氰基苯基)二氮杂萘-1-酮(),然后在碱性(KOH)条件下进行水解制得了一种新型的含氯取代杂萘联苯结构的芳香二酸,4-[3-氯-4-(4-羧基苯氧基)苯基]-2-(4-羧基苯基)二氮杂萘-1-酮().用新二酸与各种芳香二胺进行直接缩合聚合制得了一系列新型氯取代含杂萘联苯结构的聚芳酰胺,特性粘度可达1.23dL/g.用FTIR和¹HNMR研究了新型二酸单体及聚合物的结构.该类聚芳酰胺均可溶解于NMP,DMAc和DMSO等极性有机溶剂中,并且可浇铸成透明韧性膜,其玻璃化转变温度在291～332℃之间,10%的热失重温度在460℃以上.     

苯取代杂萘联苯型聚芳酰胺的合成与表征及性能

合成了一种新型苯基取代芳香二胺双 (4 胺基苯基 ) 4 (3 苯基 4 苯氧基 ) 2 ,3 二氮杂萘 1 酮 (2 (4 aminophenyl) 4 (3 pheny 4 phenoxy) 2 ,3 phthalazinone 1) (1,DAPPP) .采用Yamazaki体系 ,二胺单体 1能与各种商品芳香二酸进行溶液亲核缩聚反应 ,制得了一类新型苯基取代聚芳酰胺 ,其特性粘度为 0 .6 3～ 0 .75dL·g- 1 ;以MS、FT IR、1 H NMR等分析手段研究了新型二胺单体及其聚合物的结构 ;利用DSC、TGA研究了聚合物的耐热性能 ,结果表明新型聚芳酰胺具有高的玻璃化温度 (32 0 .9～ 32 9.9℃ ) ,氮气氛中 10 %热失重温度在40 5 .3℃以上 ,聚合物在二甲基乙酰胺、1 甲基吡咯烷酮和间甲酚等极性有机溶剂中可溶解并浇注得到韧性薄膜     

含二氮杂荼酮结构新型聚芳醚系列高性能聚合物的合成与性能

从分子结构设计出发 ,以价廉易得的苯酚、苯酐为原料 ,经温和的工艺合成了结构全新的 4 ( 4′ 羟基苯基 ) 2 ,3 二氮杂萘 1 酮 (DHPZ) ,对其合成反应路线、合成反应动力学、反应机理进行了深入研究 .在大量实验研究基础上 ,结合分子立体结构的计算机模拟 ,确认其具有非共平面扭曲结构特征 ,其N—H键和O—H键具有类似的反应活性 ,是一种类似双酚的新单体 .以DHPZ与多种市售双卤单体如二氟二苯酮 (DFK)、二氯二苯砜 (DCS)、二氯二苯双酮 (DCKK)、二氯二苯腈 (DCBN)等经溶液亲核取代逐步聚合反应制得一系列含二氮杂萘酮结构的新型高性能聚醚砜 (PPES)、聚醚酮 (PPEK)、聚醚砜酮 (PPESK)、聚醚酮酮 (PPEKK)、聚醚砜酮酮(PPESKK)、聚醚腈酮 (PPENK)、聚醚腈砜 (PPENS)、聚醚腈砜酮 (PPENSK)等 ,对其结构进行了谱学表征 ,对其性能进行了全面测试 ,研究了其结构与性能关系 .谱学数据证明皆为无定型高聚物 .其玻璃化温度Tg 在 2 5 0～370℃之间 ,可以通过取代基团结构或主链上砜 酮基团比例进行调控 .在大量实验研究基础上 ,创造性提出“引入全芳环非共平面扭曲分子链结构赋予高聚物既耐高温又可溶解的优异综合性能”的分子结构设计理论 .在此分子设计理论指导下 ,设计并合成了含联苯二氮杂萘酮结构的新型二     

主链含芳基均三嗪环结构杂萘联苯共聚芳醚腈的结构与性能

以含均三嗪环结构的双氟单体2,4-二(4-氟苯基)-6-苯基-1,3,5-三嗪与商用2,6-二氟苯腈为共聚单体,与具有扭曲、非共平面结构的4-(4-羟基-苯基)-2H-二氮杂萘-1-酮(DHPZ)经溶液亲核取代逐步聚合,合成了一系列主链含三芳基均三嗪环结构和二氮杂萘酮结构线性共聚芳醚腈(PPENPs),其特性黏数为0.65～1.02 dL/g;采用FTIR和1H-NMR证明了聚合物结构与设计一致.PPENPs的DSC曲线中只有一个玻璃化转变温度,在301～ 337℃之间,且随着分子链中三嗪环结构的增加而升高.N2气氛5％热失重温度在510℃以上,800℃残碳率大于60％.当共聚物中三嗪环含量低于50％时,在室温下可溶于N-甲基吡咯烷酮(NMP)、N,N-二甲基乙酰胺(DMAc)和氯仿(CHCl3)等极性非质子溶剂中.其薄膜的拉伸强度为72 ～ 84 MPa,断裂伸长率为7.6％ ～11％,且随着分子链中三嗪环结构的增加而降低.     

含二氮杂萘酮联苯结构的聚芳醚腈共聚物的合成及其性能

以类双酚单体4-(4-羟基苯基)-2,3-二氮杂萘-1-酮,2,6-二氯苯腈和对苯二酚为原料,K2CO3为催化剂,通过溶液聚合法合成了含二氮杂萘酮联苯结构的聚芳醚腈共聚物(1),其结构和性能经FT-IR,GPC,DSC和TGA表征。结果表明,1的Mn为2.03×104,Mw为4.35×104,1具有良好的热性能及溶解性。     

含二氮杂萘砌块化合物的荧光性能构效关系研究及应用

通过文献方法合成了具有较好平面共轭结构和较高电子云密度的5-氨基-2-芳基-3H-色烯[4,3,2-de][1,6]并二氮杂萘-4-腈(4)和5-氨基-2-芳基-3H-喹啉[4,3,2-de][1,6]并二氮杂萘-4-腈(6),研究了稠合环数、荧光助色团数量以及取代基类型对产物发光性能的影响,探索了其结构与发光性能之间的关系.在发光性能构效关系指导下初步探究了化合物4对9种金属离子的识别,并从产物中筛选得到了具有进一步研究价值的、具开发为有机荧光材料潜质的产物.     

含二苯甲烷结构四元共缩聚杂萘聚芳酰胺的合成与性能

采用自制二胺1,2-二氢-2-(4-氨基苯基)-4-[4-(4-氨基苯氧基)-苯基]-二氮杂萘-1-酮、商品二胺4,4′-二氨基二苯甲烷和对苯二胺与对苯二甲酰氯进行低温溶液缩聚反应,改变三种二胺的比例,得到了一系列共聚酰胺树脂,其特性粘数为1·24~2·32dL/g,用FT-IR、1H-NMR手段研究了聚合物的结构;利用DSC和TGA研究了聚合物的耐热性能,结果表明,该类聚合物具有较高玻璃转化温度(301℃以上);氮气气氛中5%热失重温度在438℃以上;用一定比例的二胺制得的聚合物分别能溶于N-甲基吡咯烷酮、N,N-二甲基乙酰胺等非质子极性溶剂中并浇注得到韧性薄膜.     

新型苯乙酰脒类化合物的合成及其感光性能

以氢化铝锂为还原剂,甲基叔丁基醚为溶剂,1,5-二氮杂双环[4.3.0]-5-壬烯(1)于55℃反应9 h制得1,5-二氮杂双环[4.3.0]壬烷(2),收率87.9%,纯度95.0%。2分别与溴代苯乙酮(3a),对甲氧基溴代苯乙酮(3b)和对溴基溴代苯乙酮(3c)进行消除反应合成了3个新型的苯乙酰基潜双环脒类化合物(4a~4c),其结构经1H NMR和LC-MS表征。采用正交实验对合成4a~4c的反应条件进行了优化。在最佳反应条件[以甲苯为溶剂,3a 25.2 mmol,n(3a)∶n(K2CO3)∶n(2)=1.0∶2.0∶1.4,于15℃反应24 h]下,1,5-二氮杂双环[4.3.0]-5-苯乙酰基壬烷(4a)收率89.0%,纯度87.9%。感光性能研究结果表明,1,5-二氮杂双环[4.3.0]-5-(4-甲氧基)苯乙酰基壬烷(4b)经紫外曝光400 mJ·cm-1,其引发性能最强,分解转化近45%;曝光2 000 mJ·cm-1,4b分解转化近90%。     

邻甲基取代杂萘联苯型聚芳酰胺的合成与性能

二氮杂萘酮;物理性能;邻甲基取代杂萘联苯型聚芳酰胺的合成与性能     

Synthesis and properties of Ortho-linked aromatic polyamides based on 4,4′-(2,3-naphthalenedioxy) dibenzoic acid

A novel aromatic dicarboxylic acid monomer, 4,4′-(2,3-naphthalenedioxy)-dibenzoic acid ( 3 ), was prepared by the fluorodisplacement reaction of p-fluorobenzonitrile with 2,3-dihydroxynaphthalene in N,N-dimethylformamide (DMF) in the presence of potassium carbonate followed by alkaline hydrolysis of the intermediate dinitrile. A series of novel aromatic polyamides containing ortho-linked aromatic units in the main chain were synthesized by the direct polycondensation of diacid 3 and a variety of aromatic diamines using triphenyl phosphite and pyridine as condensing agents in the N-methyl-2-pyrrolidone (NMP) solution containing dissolved calcium chloride. The resulting polyamides had inherent viscosities higher than 0.74 and up to 2.10 dL/g. All of these polyamides were soluble in polar solvents, such as NMP, DMF, N,N-dimethylacetamide (DMAc), and dimethyl sulfoxide. Transparent, flexible, and tough films could be cast from their DMAc or NMP solutions. The solvent-cast films had high tensile strengths and moduli. Extensions to break were relatively low, except for the polymers derived from 2,2-bis[4-(4-aminophenoxy)phenyl]hexafluoropropane and 3,4′-oxydianiline, which had elongations of 82 and 62%, respectively. Except for the polyamide based on p-phenylenediamine, all the other polyamides were amorphous in nature. All the polymers are thermally stable to temperatures in excess of 450°C in either air or nitrogen atmosphere. The polymers exhibited glass transition temperatures ranging from 183 to 260°C and decomposition temperatures (10% weight loss) ranging from 462–523°C in air and 468–530°C in nitrogen. © 1997 John Wiley & Sons, Inc. J Polym Sci A: Polym Chem 35 : 3385–3391, 1997     

Wholly aromatic chiral polyamides bearing pendant phthalimido and L-isoleucine moities

<正>A potential biodegradable and optically active bulky chiral aromatic amide-imidic diacid monomer,(2S,3S)-5-(3- methyl-2-phthalimidylpentanoylarnino)isophthalic acid(7),containing a rigid phthalimide and flexible L-isoleucine pendant group was synthesized in three steps.New aromatic polyamides including pendant phthalimido groups and flexible side spacers have been synthesized by direct polycondensation reaction of equimolar amounts of different aromatic diamines with an optically active diacid 7,using N-methyl-2-pyrrolidone(NMP) as a solvent and triphenyl phosphite/CaCl_2/pyridine as a condensing agent.These polyamides were characterized by FTIR,~1H-NMR spectroscopy,specific rotation, thermogravimetric and elemental analysis.The resulting polymers have inherent viscosities in the range of 0.21-0.45 dL/g. Amino acid existence in this backbone results in optically active polymers.Due to introduction of bulky and flexible groups in these polyamides,they show improved solubility in polar aprotic solvents such as NMP and dimethylacetamide and also good thermal stability(10%weight loss temperatures in excess of 330℃,and char yields at 600℃in nitrogen higher than 62%).     

Heterocyclic polyamides containing hexafluoroisopropylidene groups

New heterocyclic polyamides have been synthesized by solution polycondensation of aromatic diamines containing phenylquinoxaline units with diacid chlorides having both imide and hexafluoroisopropylidene (6F) groups. These polymers are soluble in polar aprotic solvents, such as N-methylpyrrolidone (NMP) or N, N-dimethylformamide (DMF), and can be cast into flexible thin films from solutions. They show high thermooxidative stability with decomposition temperatures above 400°C and glass transition temperatures in the range of 225-300°C. The polymer films exhibit good chemical resistance towards diluted acids and good electrical insulating properties with dielectric constants in the range of 3.2–3.7.     

Synthesis and properties of aromatic polyamides based on 4,4′-(2,7-naphthalenedioxy)dibenzoic acid

4,4′-(2,7-Naphthalenedioxy)dibenzoic acid, a new aromatic dicarboxylic acid monomer, was prepared starting from 2,7-dihydroxynaphthalene and p-fluorobenzonitrile in three steps. Using triphenyl phosphite (TPP) and pyridine as condensing agents, a series of novel aromatic polyamides were synthesized by the direct polycondensation of the diacid monomer and aromatic diamines in N-methyl-2-pyrrolidone (NMP) solution containing dissolved calcium chloride. The resulting polyamides had inherent viscosities ranging from 0.48 to 0.67 dL/g. Most of these polyamides were readily soluble in polar solvents, such as NMP and N,N-dimethylacetamide (DMAc). Transparent, flexible, and tough films were cast from their DMAc solutions. They had tensile strengths of 65–70 MPa, elongations to break of 5–7%, and initial moduli of 1.4–1.6 GPa. Most of these polymers proved to be amorphous, with glass transition temperatures in the range between 143–227°C. Thermogravimetric analysis (TG) showed that all the polyamides were stable up to 450°C in both air and nitrogen atmospheres. © 1997 John Wiley & Sons, Inc. J Polym Sci A: Polym Chem 35: 1469–1478, 1997     

Polyamides with pendant 1,3,4-oxadiazole and pyridine moieties

A novel aromatic diamine,2-（5-（3,5-diaminophenyl）-l,3,4-oxadiazole-2-yl）pyridine（POBD）,containing a pyridine ring and a 1,3,4-oxadiazole moiety,was synthesized.It was used in a polycondensation with various aromatic and aliphatic diacid chlorides to generate a series of new aromatic polyamides with pendant 1,3,4-oxadiazole groups.The prepared polyamides were characterized by IR,elemental analysis and through the synthesis of model compounds.Thermophysical properties of the synthesized polyamides have been studied by DSC,TGA and inherent viscosity measurements. Relatively high inherent viscosity values（0.76-1.62 dL/g,in 0.125%H₂SO₄ at 25℃） were observed for these compounds. Number average molecular weight（M_n） of the polymers was measured by vapor phase osmometry（VPO）.The introduction of bulky side chains in the structure of aromatic polyamides led to increased solubility of these polymers in common polar and aprotic solvents,such as DMF,DMSO,NMP and DMAc,which allowed thin films to be cast from polymer solutions. The highest molecular weight（M_n = 51190） was observed for polymer（DC）,which was prepared from pyridine-2,6-dichlorocarbonyl.     

Synthesis and Properties of Novel Aromatic Copolyamides Containing Phthalazinone Moiety

A series of novel aromatic copolyamides were synthesized by the direct polycondensation of 2‐(4‐carboxyphenyl)‐4‐[4‐(4‐carboxyphenoxyl)phenyl]‐phthalazinone (1), terephthalic acid (TPA), and four commercial diamines. The inherent viscosities of the polyamides were between 0.79～1.56 dL/g. Introduction of the non‐coplanar phthalazinone segments into the main chains remarkably decreased the crystallinity and improved the solubility of the copolyamides. When the percentage of 1 in the diacid monomers was above 50%, the copolymers were soluble in aprotic polar solvents, such as N‐methyl‐pyrrolidinone and N,N‐dimethylacetamide. The copolyamides showed high thermal properties associated with the glass transition temperatures in the range of 276～337°C and 10% wt loss temperatures in nitrogen over 496°C. Some polymer films cast from NMP solution had tensile strengths up to 123.4 MPa, initial moduli up to 2.10 GPa, and elongation at break values up to 9.6%.