光敏感遥爪聚合物C-PDMAEMA的合成及其性能研究

以香豆素二硫化物(C-S-S-C)/三丁基膦复合体系为链转移剂、甲基丙烯酸-N,N-二甲氨基乙酯(DMAEMA)为单体、偶氮二异丁腈(AIBN)为引发剂制备了末端为香豆素光响应基元的双亲性遥爪聚合物(C-PDMAEMA). 用FTIR, GPC, ¹H NMR等对该聚合物进行了结构表征. 研究表明该遥爪聚合物可直接在水中形成纳米聚集体|且其香豆素端基可在365 和254 nm交替光照下进行可逆光二聚反应. 同时纳米粒度跟踪(Malvern Zetasizer Nano-ZS)、透射电镜(TEM)跟踪结果表明, 随香豆素端基光二聚反应的进行, 聚合物纳米聚集体的粒径逐渐增大|反之, 随着光解二聚反应的进行, 该纳米聚集体的粒径逐渐减小.     

一种新型聚集诱导发光的片状银纳米簇聚集体的合成

具有聚集诱导发光的片状银纳米簇聚集体在生物传感、生物成像等多个领域表现出良好的应用前景。以D-青霉胺(RSH)为配体，在室温下和硝酸银反应，以高产率96%合成了银纳米簇聚集体，并通过红外光谱、X-射线光电子能谱、热重分析、质谱、X-射线衍射、扫描电镜和透射电镜对其结构进行了表征。结果表明：银纳米簇聚集体是银纳米簇通过氢键网络连接形成的微米尺度的片状结构，化学组成是(AgSR)_n。紫外可见吸收光谱和发光光谱研究发现，银纳米簇聚集体最大吸收波长在253 nm,最大发射波长在564 nm;在相同浓度下，银纳米簇聚集体的水溶液不发光，但随着乙醇体积分数的增加，发光逐渐增强，显示出聚集诱导发光行为。     

木质素磺酸钠在浓溶液中聚集行为的研究

利用流变和电导等实验手段研究了木质素磺酸钠(SL)在浓溶液中的聚集行为,讨论了无机盐(Na Cl、Na2SO4)、尿素及直链醇(甲醇、乙醇、正丙醇)对SL聚集行为的影响.结果表明,无机盐会促使较大SL聚集体的形成,而尿素可破坏聚集体的形成;少量直链醇加入将不利于SL聚集体的形成,但是过量醇的加入又会有利于SL聚集体的形成.从静电、氢键和疏水作用等不同角度对SL在浓溶液中的聚集行为进行了合理解释.     

手性卟啉化合物聚集体与DNA 的相互作用: 电子吸收光谱 和圆二色光谱研究

使用电子吸收光和圆二色(circulardichroism,CD)光谱研究了手性氨基酸卟啉锌配合物(Thr---TPPZN)聚集体与DNA之间的相互作用,这种螺旋结构的手性卟啉聚集体能与DNA结合,L－Thr----TPPZN聚集体与DNA作用量是通过氨基酸残基与DNA的磷酸链形成氢键,结合模式为外部结合,而D----Thr--TPPZN聚集体与DNA作用除了存在以上这种氢键作用之外,卟啉单元还能部分地插入DNA中,与DNA的碱基对形成π-π堆积作用。L--Thr---TPPZN和D--Thr--TPPZn聚集体与DNA结合模式不同是由于L-------Thr----TPPZn聚集体的左手螺旋结构与DNA的右手螺旋结构不匹配,而右手螺旋结构的D--Thr-----TPPZN聚集体能嵌入同样是右手螺旋结构的DNA中。     

含环状原酸酯侧基的两亲性嵌段共聚物及其酸敏感胶束状聚集体

合成了含有环状原酸酯基团的单体,甲基丙烯酸5-(5-甲基-2-乙氧基-1,3-二氧六环)甲酯(EDMM),以PEO大分子引发剂引发,通过原子转移自由基聚合方法制备了两个疏水链段(PEDMM)长度不同的酸敏感两亲性嵌段共聚物,PEO-b-PEDMM17和PEO-b-PEDMM34.两个聚合物在水溶液中形成粒径约为60～200nm的球型聚集体,通过动态光散射、透射电镜、荧光探针等手段表征了所得聚集体.结果显示,疏水链段较短的共聚物的临界聚集浓度较高,形成的聚集体尺寸较小.核磁和荧光探针结果表明,胶束状聚集体在中性(pH7.4)水溶液中比较稳定,在酸性水溶液中其疏水核的极性因原酸酯的水解而增加.该类酸敏感胶束状聚集体有望用于肿瘤、细胞内给药等药物传递体系.     

新型含糖嵌段共聚物PEO-b-P(lys-ML)的合成及其在水中的聚集行为

用氨端基PEO作大分子引发剂 ,引发lys(Z) NCA开环聚合制得共聚物PEO b P(lys Z) ,经脱除保护基———苄氧羰基 (Z)后 ,与麦牙糖内酯反应制得水溶性嵌段共聚物聚环氧乙烷 b 聚 (Nε 麦芽糖酰 L 赖氨酸 )(PEO b P(lys ML) ) .用荧光方法研究了PEO b P(lys ML)在水溶液中的聚集行为 .结果表明 ,在某一临界聚集浓度 (Criticalaggregationconcentration ,简称cac)以上 ,聚合物在水中自聚集形成胶束型聚集体 ;在浓度低于cac时 ,加入与葡萄糖基团有特殊相互作用的凝集素 (ConcanavalinA ,简称ConA)也能诱导聚合物形成聚集体 ,此类聚集体对于开发新型药物载体有重要意义     

聚(偏氯乙烯-丙烯酸甲酯)-b-聚丙烯酸嵌段共聚物的胶束化行为

通过可逆加成-断裂链转移(RAFT)溶液聚合制备了不同组成的两亲性聚(偏氯乙烯-丙烯酸甲酯)-b-聚丙烯酸(PVDC-b-PAA)嵌段共聚物,采用动态光散射、表面张力仪和透射电镜等研究了PVDC-b-PAA共聚物在水溶液中的胶束化行为,结果表明采用N,N-二甲基甲酰胺溶解、水相渗析可实现PVDC-b-PAA共聚物的自组装,形成均一透明的胶束水溶液;随着亲水PAA嵌段含量的增加,PVDC-b-PAA共聚物的临界胶束浓度逐渐增大;PVDC-b-PAA共聚物自组装形成的胶束呈现典型的球状结构,胶束粒径在70.9~110.9 nm之间,粒径分布较窄;水相p H值影响PVDC-b-PAA共聚物胶束表面zeta电位及胶束的聚集行为,当水相p H值由3变为1,胶束表面由带负电荷变为带正电荷,胶束聚集程度和聚集体平均粒径显著增大,粒径分布变宽.     

含有识别基团的两亲性给-受体型分子的聚集行为

利用紫外-可见光谱、表面光电压谱及荧光发射谱对两种以具有识别功能的巴比妥酸基团作为受体的两亲性给-受体型分子,5-(-4-十二烷氧基苯乙烯基)-(1H,3H)-2,4,6-嘧啶三酮(PB₁₂)和5-(-4-N,N-二-十二胺基苯乙烯基)-(1H,3H)-2,4,6-嘧啶三酮(AB₁₂) 的聚集行为进行了研究.结果表明,在分子间氢键、π-π及van der Waals等弱相互作用的协同调控下,随着浓度的增加,PB₁₂形成J-聚集体,而AB₁₂形成柱状囊泡形H-聚集体.当溶液浓度大于10^-4 mol/L时,PB₁₂在峰值波长500 nm附近出现来源于J-聚集体的扭曲分子内电荷转移带(TICT) 的发射,AB₁₂在峰值波长600 nm附近出现来源于H-聚集体的激基缔合物的荧光.     

纳米金的绿色合成与CTAB对金纳米聚集体的解聚集作用

室温下利用鞣酸(TA)既作还原剂又作保护剂,通过绿色还原方法制备了鞣酸包裹的金纳米粒子,并通过紫外可见光谱(UV-Vis)、透射电镜(TEM)、X射线衍射(XRD)、红外光谱(FTIR)等分别进行了表征和分析。结果表明,随着nTA/nHAuCl4比率的增加,紫外可见光谱显示鞣酸稳定的金溶胶最大吸收波长明显增大且吸收带变宽,而最大吸光率逐渐减小。TEM观察证实增加鞣酸用量会导致溶胶体系中花状金纳米聚集体的形成。实验发现,阳离子型表面活性剂十六烷基三甲基溴化铵(CTAB)对鞣酸保护的金纳米聚集体具有强烈的解聚集作用,在剧烈搅拌的条件下CTAB能使金纳米聚集体成功解聚为单分散状态的金纳米粒子,提高体系温度可明显促进CTAB对金纳米聚集体的解聚集作用。     

两亲无规聚合物的聚集行为及其与非离子表面活性剂的相互作用

以2-丙烯酰胺基-十二烷基磺酸(AMC12S)与2-丙烯酰胺基-2-甲基丙磺酸(AMPS)进行无规共聚,合成了含AMC12S摩尔分数(X)较高(X=0.1,0.3,0.5)的一系列两亲聚合物.采用稳态荧光及动态光散射技术对聚合物在水溶液中的聚集行为及其与三种非离子表面活性剂(HO(CH2CH2O)10C12H25(C12E10)、HO(CH2CH2O)20C12H25(C12E20)和HO(CH2CH2O)40C12H25(C12E40))的相互作用进行了研究,并考察了X对聚集行为的影响以及表面活性剂亲水基团长度对相互作用的影响.随着X的增大,聚合物的临界聚集浓度(CAC)明显减小,X=0.5时聚合物的CAC低达0.0039g·L-1.聚集体的流体力学半径(Rh)都大于26nm,并随着聚合物浓度的升高而增大,说明聚合物分子主要以分子间的聚集方式聚集,形成多分子聚集体.随X的增大,聚集体Rh减小,同时Rh随聚合物浓度升高而增大的幅度减小,说明聚集体结构变得更加紧实.表面活性剂与聚合物之间存在很强的相互作用,在混合溶液中表面活性剂浓度达到临界胶束浓度(CMC)左右时聚合物聚集体开始解离,形成混合聚集体.亲水基团长度增长,表面活性剂对聚合物聚集体的解离能力随之增强.C12E40与X=0.5的聚合物形成的混合聚集体Rh为6.8nm,与C12E40自身形成的聚集体尺寸相当.     

含β-CD单元VCL共聚物微凝胶的合成与性能研究

采用无皂沉淀聚合法,在水溶液中通过N-乙烯基己内酰胺(VCL)与一种单取代乙烯基β-环糊精单体(GMA-EDA-β-CD)的共聚反应,合成出了含有β-CD结构单元的温敏性VCL/GMA-EDA-β-CD共聚物微凝胶.用红外光谱仪(FTIR)、1H核磁共振仪(1H-NMR)、透射电镜(TEM)及激光粒度仪(DLS)对其结构、形态和性能进行了表征.研究结果表明,β-CD结构单元的加入使共聚物微凝胶的粒径减小,粒径分布变窄,但其温敏性降低.     

Effect of Pluronic P103 Concentration on the Simple Synthesis of Ag and Au Nanoparticles and Their Application in Anatase-TiO2 Decoration for Its Use in Photocatalysis

Silver and gold nanoparticles were synthesized under environmentally-friendly reaction conditions by using a biodegradable copolymer and water as a solvent. The triblock copolymer Pluronic P103 was utilized as a stabilizing agent or soft template to produce Ag and Au nanoparticles (NPs) of different sizes. Moreover, in the synthesis of Au NPs, the polymer acted as a reducing agent, decreasing the number of reagents used and consequently the residues produced, hence, rendering the procedure less complicated. It was observed that as the concentration of the polymer increased, the size of the metallic NPs augmented as well. However, AgNPs and AuNPs prepared with 1 and 10 wt% Pluronic P103, respectively, showed a significant decrease in particle size due to the presence of polymeric soft templates. The hybrid materials (metal/polymer) were characterized by UV-Vis spectroscopy, DLS, and TEM. The pre-synthesized nanoparticles were employed to decorate anatase-TiO₂, and the composites were characterized by DRS, XRD, BET surface area measurements, the TEM technique with the EDS spectrum, and XPS spectroscopy to demonstrate NPs superficial incorporation. Finally, methylene blue was used as a probe molecule to evidence the effect of NPs decoration in its photocatalytic degradation. The results showed that the presence of the NPs positively affected methylene blue degradation, achieving 96% and 97% removal by utilizing TAg0.1 and TAu10, respectively, in comparison to bare anatase-TiO₂ (77%).     

树枝状聚(醚-酰胺)基胶束的制备及其形貌研究

采用ε-己内酯(CL)开环聚合的方法首先合成树枝状聚(醚-酰胺)基(DPEA)星形聚合物star-PCL,再与异氰酸基封端的PEG(PEG-NCO)偶合制备了两亲性树枝状聚(醚-酰胺)基星形嵌段聚合物star-PCL-b-PEG.利用FT-IR、1H-NMR和GPC分析测试手段对star-PCL-b-PEG的结构进行了表征.通过滴加选择性溶剂的方法,制备了star-PCL-b-PEG以水为介质的类似"平头"聚集体胶束溶液.采用荧光光谱法测得star-PCL-b-PEG水溶液的临界胶束浓度(CMC)为1.623mg/L;采用激光光散射仪测得其在浓度0.15mg/mL和0.5mg/mL的流体力学半径分别为86.2nm和224.6nm,其多分散指数分别为0.115和0.197.透射电镜(TEM)观察发现胶束的形貌受共溶剂的特性,初始聚合物浓度,水含量等因素的影响.     

Micelles of poly(styrene-b-2-vinylpyridine-b-ethylene oxide) with blended polystyrene core and their application to the synthesis of hollow silica nanospheres

Core-shell-corona (CSC) micelles of asymmetric triblock copolymer, poly(styrene-b-2-vinylpyridine-b-ethylene oxide) (PS-PVP-PEO), containing polystyrene homopolymer (homo-PS) in the core were successfully prepared in aqueous media. The influence of homo-PS contents over the formation of the micelles was investigated thoroughly by various techniques such as dynamic light scattering (DLS), scanning electron microscopy (SEM), transmission electron microscopy (TEM), and fluorescence spectroscopy. It was found that the size of the PS core of the micelle was increased by the addition of homo-PS as observed by DLS and TEM techniques. The SEM and TEM measurements confirm the spherical morphology of the micelles and enlargement of PS core over the addition of homo-PS. The increase in the PS core volume of the PS-PVP-PEO micelles is attributed to the insertion of homo-PS in the PS core. The micelles have also been demonstrated as facile soft templates for synthesis of hollow silica nanospheres. The average diameter of the spherical hollow particles could be tuned between 30.6 and 38.8 nm with cavity sizes ranging from 20.7 to 28.5 nm using tetramethoxysilane as silica precursors under mild acidic conditions. The facile synthesis of hollow silica using the CSC micelles with different homo-PS contents indicates that the hollow void size can be controlled within a range of several nanometers.     

Dynamic and static light scattering studies on self-aggregation behavior of biodegradable amphiphilic poly(ethylene oxide)-poly[(R)-3-hydroxybutyrate]-poly(ethylene oxide) triblock copolymers in aqueous solution

The self-aggregation behavior of two amphiphilic poly(ethylene oxide)-poly[(R)-3-hydroxybutyrate]-poly(ethylene oxide) (PEO-PHB-PEO) triblock copolymer samples with nearly identical PHB block lengths but different PEO block lengths, PEO-PHB-PEO(2000-810-2000) and PEO-PHB-PEO(5000-780-5000), was studied with dynamic and static light scattering (DLS and SLS), in combination with fluorescence spectroscopy and transmission electron microscopy (TEM). The formation of polymeric micelles by the two PEO-PHB-PEO triblock copolymers was confirmed with fluorescence technique and TEM. DLS analysis showed that the hydrodynamic radius (R(h)) of the monodistributed polymeric micelles increased with an increase in PEO block length. The relative thermostability of the triblock copolymer micelles was studied by SLS and DLS at different temperatures. The aggregation number and the ratio of the radius of gyration over hydrodynamic radius were found to be independent of temperature, probably due to the strong hydrophobicity of the PHB block. The combination of DLS and SLS studies indicated that the polymeric micelles were composed of a densely packed core of hydrophobic PHB blocks and a corona shell formed by hydrophilic PEO blocks. The aggregation numbers were found to be approximately 53 for PEO-PHB-PEO(2000-810-2000) micelles and approximately 37 for PEO-PHB-PEO(5000-780-5000) micelles. The morphology of PEO-PHB-PEO spherical micelles determined by DLS and SLS measurements was further confirmed by TEM.     

PAn-PEG-PAn三嵌段共聚物的合成和表征

在合成α,ω-双(对氨基苯基)聚乙二醇(BAPPEG)的基础上, 用化学氧化共聚法制备了PAn-PEG-PAn三嵌段共聚物. 研究了共聚时苯胺(An)与BAPPEG摩尔比(r)对共聚物的化学组成、UV-Vis谱图、热稳定性和在水溶液中的自组装特性的影响. 结果表明：随着r的增加, 共聚物中PAn链段的含量增大；其UV-Vis谱图中对应PAn链段的吸收峰出现红移, 且红移的程度增加； 热稳定性提高. 三嵌段共聚物在水中表现出自组装特性： 随着r的增加, 先形成粒径约为90 nm的PAn链段/PEG链段球型核壳胶束, 然后形成长为400～800 nm, 直径约为30 nm的棒状结构, 和棒状结构聚集形成的网状结构, 最后又变成球型胶束.     

Gold-copolymer nanoparticles: Poly(ε-caprolactone)/poly(N-vinyl-2-pyrrolydone) Biodegradable triblock copolymer as stabilizer and reductant

Block copolymers have been extensively used in the synthesis of many types of nanoparticles, where generally are considered as stabilizer and protective agent. In this work a double function of the biodegradable triblock copolymer poly(N-vinyl-2-pyrrolidone)-b-poly(ε-caprolactone)-b-poly(N-vinyl-2-pyrrolidone), (PVP-PCL-PVP) in the gold nanoparticle-copolymer synthesis is reported.Gold-copolymer composed nanoparticles were synthesized using the triblock copolymer (PVP-PCL-PVP) and potassium tetrachloro aurate (III), both in aqueous solution. The copolymer work as both, reductant and stabilizer agent. The obtained nanoparticles were characterized by FT-IR, dynamic light scattering (DLS), atomic force microscopy (AFM) and transmission electron microscopy (TEM). The shape and the size of the obtained nanoparticles are dependent on the copolymer/salt of gold concentration ratio used in the synthesis.To complement the experimental results about the copolymer role in the nanoparticles synthesis, computational tools were used to characterize the reactivity of the reactant species.     

PW_(11)/SBA-15介孔杂化材料的直接合成与表征

采用三嵌段共聚物EO20PO70EO20(P123)为模板剂,正硅酸乙酯(TEOS)和缺位Keggin型多金属氧酸盐Na7PW11O39(PW11)为无机前驱体,由共缩合法一步合成了PW11/SBA-15介孔杂化材料.通过红外(IR)光谱、紫外-可见漫反射光谱(UV-Vis/DRS)、X射线衍射(XRD)、低温N2吸附、透射电子显微镜(TEM)等手段对杂化材料和合成过程进行了表征.结果表明:杂化材料中不仅多金属氧酸盐的Keggin单元保留完整,且共价键联于介孔孔道内部,而且样品基本具有规整有序的六方介孔结构.TEOS预水解时间的长短对有序结构的构筑有明显影响,随预水解时间延长,样品的介观有序性增加.这是因为多金属氧酸盐对模板剂P123有盐析作用,其作用大小与多金属氧酸盐前驱物的溶解度有关.     

Physicochemical characterization of polymeric micelles constructed from novel amphiphilic polyphosphazene with poly(N-isopropylacrylamide) and ethyl 4-aminobenzoate as side groups

An amphiphilic graft polyphosphazene (PNIPAm/EAB-PPP) composed of oligo-poly(N-isopropylacrylamide) (PNIPAm) as hydrophilic segments and ethyl 4-aminobenzoate (EAB) as hydrophobic groups was synthesized via ring-opening polymerization and subsequent substitution reaction. The molar ratio of the PNIPAm segment to EAB group was 1.85:0.15. The lower critical solution temperature (LCST) of copolymer was 32.6 degrees C as determined by turbidity method. Micellization behavior of PNIPAm/EAB-PPP in an aqueous phase was characterized by fluorescence technique, 1H NMR, dynamic light scattering (DLS) and transmission electron microscopy (TEM). The critical micelle concentration (CMC) of the graft copolymer in aqueous solution was 0.1mg/ml. The number-averaged particle size of spherical micelles was 80 nm at 25 degrees C with a narrow distribution. TEM also revealed that inter-micellar aggregation was induced in the micelle solution at temperature above LCST of graft copolymer. The thermosensitive PNIPAm/EAB-PPP micelles may be of help to regulate the loading and release of hydrophobic drugs.     

Effects of cationic head groups of ionic liquid on micellization in aqueous solution of PEO-PPO-PEO triblock copolymer

The interaction of ionic liquids (ILs) with non-ionic triblock copolymer, Pluronic® P123 in aqueous solutions has been investigated using DLS, surface tension, and viscosity measurements. The addition of ILs increased the Critical Micelle Concentration (CMC) of P123, which appears to be logistic. As the added IL enhances the solubility of PPO moiety (and PEO), which makes them to behave like a more hydrophilic block copolymer that would be micellized at high copolymer concentration. The DLS data is in good agreement to the results observed from surface tension measurements. Viscosity results show the propensity in micellar size reduction upon addition of ILs, and hence, intrinsic viscosity decreases as compared to pure P123 aqueous solution. The results are studied and discussed as a function of cationic head groups of N-octyl-pyridinium/imidazolium chloride based ILs.