水溶性纳米Fe3O4-阿魏酸抗凝血材料的合成及性能

为提高具抗凝血性能的阿魏酸分子在水中的溶解性进而提高其药效,利用DBI(3,4-二羟基苯甲醛)、PEG(聚乙二醇4000)和纳米Fe₃O₄,采用接枝的方法制备了水溶性纳米Fe₃O₄-DBI-PEG-阿魏酸抗凝血杂化材料,用IR、¹H NMR、TG、SEM、TEM、VSM和粒度测试方法表征了产物。结果表明阿魏酸(FA)接枝在了经过DBI-PEG活化后的纳米Fe₃O₄氧化物表面。杂化材料具有良好的水溶性(溶解度大于10 mg·mL^-1)和顺磁性。抗凝血试验表明相同条件下杂化材料的抗凝血时间和复钙时间比阿魏酸要长,杂化材料的活化部分凝血活酶时间(APTT)和凝血酶原时间(PT)比空白组要长,杂化材料的抗凝血时间随浓度的增大而延长。     

水溶性纳米Fe3O4-阿魏酸抗凝血材料的合成及性能

为提高具抗凝血性能的阿魏酸分子在水中的溶解性进而提高其药效,利用DBI(3,4-二羟基苯甲醛)、PEG(聚乙二醇4000)和纳米Fe₃O₄,采用接枝的方法制备了水溶性纳米Fe₃O₄-DBI-PEG-阿魏酸抗凝血杂化材料,用IR、¹H NMR、TG、SEM、TEM、VSM和粒度测试方法表征了产物。结果表明阿魏酸(FA)接枝在了经过DBI-PEG活化后的纳米Fe₃O₄氧化物表面。杂化材料具有良好的水溶性(溶解度大于10 mg·mL^-1)和顺磁性。抗凝血试验表明相同条件下杂化材料的抗凝血时间和复钙时间比阿魏酸要长,杂化材料的活化部分凝血活酶时间(APTT)和凝血酶原时间(PT)比空白组要长,杂化材料的抗凝血时间随浓度的增大而延长。     

聚乙烯表面接枝聚合改性及抗凝血性的研究

聚乙烯(PE)膜经Ar等离子体预处理,无光引发剂紫外光照接枝甲基丙烯酸缩水甘油酯(GMA),然后进行肝素化处理,以改善PE的抗凝血性能。用正交实验确定接枝反应的最优条件。通过X-射线光电子能谱(XPS)、衰减全反射红外光谱(ATR-FTIR)、扫描电子显微镜(SEM)和接触角测定PE膜接枝GMA前后表面性能和表面形貌。用复钙时间、凝血酶原时间、部分凝血活酶时间、凝血酶时间和血小板粘附实验对其抗凝血性能进行评价,结果表明,被修饰PE膜的抗凝血性能显著提高。     

纳米稀土氧化物/硫酸酯化壳聚糖杂化材料的制备及其抗凝血性能研究

利用接枝的方法制备了4 种纳米RE₂O₃/硫酸酯化壳聚糖杂化材料(Nd₂O₃-TDI-CS, Eu₂O₃-TDI-CS, La₂O₃-TDI-CS, Sc₂O₃-TDI-CS, TDI=甲苯二异氰酸酯, CS=壳聚糖), 用红外光谱、热重分析和扫描电镜表征了产物, 结果表明壳聚糖接枝于经过活化后的纳米氧化物表面. 抗凝血实验结果和复钙实验结果说明制备的4种杂化材料比纳米稀土氧化物具有更好的抗凝血性能.     

纳米Eu2O3/硫酸酯化壳聚糖杂化材料的制备及其抗凝血性能研究

利用表面接枝的方法制备了纳米Eu2 O3/硫酸酯化壳聚糖杂化材料,并用IR,TG和SEM等方法对产物进行了表征,结果表明硫酸酯化壳聚糖接枝在了经过活化后的纳米氧化物表面,细胞毒性实验证明材料具有较低的细胞毒性和较好的细胞相容性.抗凝血实验说明材料具有良好的抗凝血性能.表面接枝方法提高了壳聚糖类化合物的抗凝作用,弥补了比...     

聚氯乙烯表面共价键合肝素及抗凝血性的研究

采用Ar等离子体引发聚乙二醇(PEG)在聚氯乙烯(PVC)表面固定化,进一步对固定PEG后的PVC进行肝素化处理,以改善PVC材料的抗凝血性能。探讨了PEG浓度对Ar等离子体固定化反应效果的影响。通过X射线光电子能谱(XPS)、衰减全反射红外光谱(ATR-FTIR)、扫描电镜(SEM)和接触角测定研究了固定PEG前后PVC的表面性能和表面形貌的变化。XPS分析证实肝素已成功地共价键合于PVC表面。采用体外凝血时间测定和血小板粘附实验对材料的抗凝血性能进行评价,结果表明,被修饰PVC材料的抗凝血性能显著提高。     

可循环使用的Sn-TiO2/聚噻吩纳米杂化材料用于可见光下降解有机污染物

采用改进的溶胶-凝胶法在低温制备了Sn-TiO2/聚噻吩纳米杂化材料(SPNH),运用X射线衍射(XRD)、扫描电镜、X射线光电子能谱(XPS)、红外光谱(IR)、紫外-可见光漫反射光谱(UV-DRS)和BET比表面积分析对所制样品进行了表征。 XRD结果证实聚噻吩(PTh)对TiO2晶相结构没有影响。 IR和UV-DRS结果表明,在掺杂的金属氧化物与PTh的纳米杂化和结合过程中, PTh表面与金属氧化物之间存在相互作用(类似核壳结构)。 XPS结果显示,纳米杂化材料中存在Sn4+以及PTh与TiO2各自所含的元素。催化剂表面吸附污染物结果发现, SPNH的吸附容量高于Sn-TiO2纳米粒子(STN)。在可见光下降解有机污染物硝基苯(NB)和孔雀绿(MG)的反应中, SPNH表现出比单纯STN更高的光催化活性和稳定性。由于STN上存在聚噻吩,使得样品表面吸附NB(24%)和MG(21%)的能力增加,从而导致更高的光催化收率。考察了该光催化剂在可见光下重复使用5次时的光催化活性,未见PTh的消耗和降解。这些高光催化活性的SPNH材料有望在工业水净化中用作光催化剂。     

可循环使用的Sn-TiO_2/聚噻吩纳米杂化材料用于可见光下降解有机污染物（英文）

采用改进的溶胶-凝胶法在低温制备了Sn-Ti O2/聚噻吩纳米杂化材料(SPNH),运用X射线衍射(XRD)、扫描电镜、X射线光电子能谱(XPS)、红外光谱(IR)、紫外-可见光漫反射光谱(UV-DRS)和BET比表面积分析对所制样品进行了表征.XRD结果证实聚噻吩(PTh)对Ti O2晶相结构没有影响.IR和UV-DRS结果表明,在掺杂的金属氧化物与PTh的纳米杂化和结合过程中,PTh表面与金属氧化物之间存在相互作用(类似核壳结构).XPS结果显示,纳米杂化材料中存在Sn4+以及PTh与Ti O2各自所含的元素.催化剂表面吸附污染物结果发现,SPNH的吸附容量高于Sn-Ti O2纳米粒子(STN).在可见光下降解有机污染物硝基苯(NB)和孔雀绿(MG)的反应中,SPNH表现出比单纯STN更高的光催化活性和稳定性.由于STN上存在聚噻吩,使得样品表面吸附NB(24%)和MG(21%)的能力增加,从而导致更高的光催化收率.考察了该光催化剂在可见光下重复使用5次时的光催化活性,未见PTh的消耗和降解.这些高光催化活性的SPNH材料有望在工业水净化中用作光催化剂.     

通过RAFT聚合制备SiO2/接枝共聚物纳米杂化粒子

以二氧化硅(SiO2)纳米粒子表面键接的二硫代苯甲酸酯作为可逆加成-断裂-链转移(RAFT)聚合反应的链转移剂, 在室温下引发苯乙烯和马来酸酐进行表面RAFT交替共聚反应, 制得了SiO2/苯乙烯-alt-马来酸酐杂化材料. 通过聚氧化乙烯(PEO)的羟基与马来酸酐的酯化反应, 将PEO接枝到SiO2纳米粒子的表面, 增加了硅粒子的生物相容性. 用FTIR, TGA和TEM对杂化材料的结构、组成和形貌进行了表征.     

由铜-胺氧化还原引发反应一步法简便制备TiO_2表面接枝聚甲基丙烯酸甲酯纳米杂化粒子

提出并验证了一种通过普通自由基聚合在纳米TiO2表面接枝聚甲基丙烯酸甲酯的简单方法.通过在纳米TiO2粒子表面引入伯胺分子层(纳米TiO2-NH2粒子),利用Cu2+-胺氧化还原体系实现了CuSO4催化纳米TiO2-NH2粒子表面引发甲基丙烯酸甲酯(MMA)的自由基接枝聚合,从而一步得到表面固定有聚甲基丙烯酸甲酯链的纳米TiO2杂化粒子(纳米TiO2-PMMA杂化粒子).红外光谱、热失重分析与电镜的结果都表明PMMA已经被接枝到纳米TiO2粒子表面,且接枝率随着聚合时间的延长而逐渐增大,PMMA链的引入有助于降低纳米TiO2粒子微球的团聚程度、增强与有机溶剂分子的范德华力,从而提高分散稳定性.反应溶液中没有游离均聚物形成.     

Preparation of Polyporus Albicans Teng Sulfate and Its Anti-coagulation Activity

More studies have indicated that polysaccharide sulfate has anti-coagulant activity.Now,heparin is the most popular anticoagulant used in clinic,however,its side effects have also caused highly concern.It is still under intensive investigations to synthesize effective safe polysaccharide sulfate as heparin substitute.We extracted water-soluble polysaccharide from fermented mycelium of edible polyporus albicans(Imaz.) teng,and got the water-soluble polyporus albicans teng sulfate(PATS) by modifying the water-solubility polyose with the method of chlorosulfonic acid-pyridine.The anti-coagulant assay of PATS in vitro towards normal human plasma indicates its remarkable anticoagulant activity,while the dose could be as low as 5 mg/L for anticoagulation.The anti-coagulant effect was equivalent to that of heparin about 150 U when the concentration of PATS was 10 mg/L.The study on anti-coagulation mechanism suggests that PATS got involved in the intrinsic pathway.The anti-coagulation activity of PATS was due to the inhibition of the coagulation factors IIa and Xa activities mediated by antithrombin Ⅲ(ATIII).The anti-coagulation mechanism of PATS is absolutely identical to that of heparin.In conclusion,we suggest that PATS has the similar anti-coagulation characteristic to heparin,but with a better anti-coagulation effect.Meanwhile,derived from edible fungus-polysaccharide,PATS has more bio-safety advantage.Therefore,PATS has promising future to be developed and used as an ideal substitute for heparin in clinic.     

Synthesis of hybrid polysiloxane-MO<Subscript>2</Subscript> (M = Si,Ti, Zr) nanoparticles through a sol–gel route

Polysiloxanes in combination with metal oxides show interesting properties as nanocomposites for optical or medical applications. The formation of covalent connections between the metal oxide and the polysiloxane is an important method to overcome phase separation between the two components, but it also can have an influence on the morphology of the final materials. In this contribution we report a method for the synthesis of hybrid materials based on polysiloxanes and various metal oxides in which both components are tightly connected to each other. Alkoxysilane modified polysiloxanes were obtained by hydrosilation reactions between vinyl triethoxysilane and poly(dimethylsiloxane-co-methylhydrosiloxane) (PDMS-co-PMHS). The thus functionalized polymers were used in a sol-gel process applying Stöber conditions and hybrid nanoparticles were obtained. Following the same pathway, different metal alkoxides (M(OR)₄; M = Ti, Zr; R = ethyl, isopropyl) were coordinated to allyl acetoacetate (AAA) and the resulting complexes were applied in a hydrosilation reaction with PDMS-co-PMHS. Metal oxide hybrid nanoparticles were obtained through a sol–gel process.     

Materials discovery by crystal growth: Lanthanide metal containing oxides of the platinum group metals (Ru, Os, Ir, Rh, Pd, Pt) from molten alkali metal hydroxides

This review addresses the process of materials discovery via crystal growth, specifically of lanthanide metal containing oxides of the platinum group metals (Ru, Os, Ir, Rh, Pd, Pt). It provides a detailed overview of the use of hydroxide fluxes for crystal growth. The melt chemistry of hydroxide fluxes, specifically, the extensive acid base chemistry, the metal cation solubility, and the ability of hydroxide melts to oxidize metals are described. Furthermore, a general methodology for the successful crystal growth of oxides is provided, including a discussion of experimental considerations, suitable reaction vessels, reaction profiles and temperature ranges. Finally, a compilation of complex platinum group metal oxides recently synthesized using hydroxide melts, focusing on their crystal growth and crystal structures, is included.     

Formation of Zirconium(IV)–Heparin Complex Multilayers on Solid Surfaces for Long‐Lasting Antiplatelet Application

A facile approach to enhancing the blood compatibility of solid surfaces based on Zr^IV–heparin complexation is reported. Solid surfaces are pretreated with tannic acid (TA)/Zr^IV complexes. Heparin is then deposited on the surface through a spin‐coating process and fixed by a Zr^IV‐mediated crosslinking reaction. Using this approach, TA/Zr^IV/heparin complex multilayers that are highly resistant to human platelet adhesion are formed on various substrates including metal, metal oxides, ceramics, and synthetic polymers. This approach presents a sustainable way for the immobilization of heparin onto surfaces because it does not require any derivatization of heparin molecule as well as time‐consuming processes.     

阿魏酸过渡金属配合物的合成及抗凝血作用研究

用阿魏酸与Fe、Co、Ni、Cu、Zn的硝酸盐制备了5种过渡金属配合物,通过红外光谱、热重-差热分析、元素分析、荧光和紫外光谱的方法对配合物进行了表征,确定了配合物的组成。并对配体和配合物进行了全血凝血时间、复钙时间、活化部分凝血活酶时间、凝血酶原时间的测定,结果表明5种配合物具有较好的抗凝血性质。通过荧光光谱、紫外光谱、圆二色谱研究了配合物与人血清白蛋白(HSA)的相互作用,HSA的荧光光谱表明配合物对其有荧光猝灭作用并使其发射峰位置红移,紫外光谱表明配合物的加入导致HSA吸收强度增加且吸收峰位置紫移,圆二色谱表明配合物的存在可引起HSA构象的变化。推测配合物抗凝血作用的起效与其和血清白蛋白之间的相互作用有一定的联系。     

Metal oxide surface charge mediated hemostasis

Blood coagulates faster upon contact with polar glasslike surfaces than on nonpolar plastic surfaces; this phenomenon is commonly termed the glass effect. However, the variable hemostatic response that we report here for contact-activated coagulation by different metal oxides, all of which are polar substrates, requires a refinement of this simple polarity model of how inorganic metal oxides activate the intrinsic pathway of blood coagulation. To our knowledge, the role of metal oxide surface charge as determined at the physiological pH and Ca2+ concentration of blood has not been previously investigated. We find that basic oxides with an isoelectric point above the pH of blood are anticoagulant while acidic oxides with an isoelectric point below the pH of blood are procoagulant. Using a thromboelastograph, we find that the onset time for coagulation and rate of coagulation post-initiation depend on both the sign and the magnitude of the initial surface charge density of the metal oxide. This work presents a useful strategy based on a quantifiable material parameter to select metal oxides to elicit a predictable and tunable biological response when they are in contact with blood.     

Polyaniline‐Intercalated Molybdenum Oxide Nanocomposites: Simultaneous Synthesis and their Enhanced Application for Supercapacitor

A new and universal synthetic strategy to hybridize metal oxides and conduct polymer nanocomposites has been proposed in this work. The simultaneous reaction process, which includes the generation of metal oxide layers, the oxidation polymerization of monomers, and the in situ formation of polymer–metal oxides sandwich structure is successfully realized and results in the unique hybrid polyaniline (PANI)‐intercalated molybdenum oxide nanocomposites. The peroxomolybdate proved to play a dual role as the precursor of the inorganic hosts and the oxidizing agent for polymerization. The as‐obtained hybrid nanocomposites present a flexible lamellar structure by oriented assembly of conductive PANI chains in the MoO₃ interlayer, and thus inherit excellent electrical performance and possess the potential of active electrode materials for electrochemical energy storage. Such uniform lamellar structure together with the anticipated high conductivity of the hybrid PANI/MoO₃ nanocomposites afford high specific capacitance and good stability during the charge–discharge cycling for supercapacitor application.