用超临界CO2制备疏水改性聚丙烯酸

用超临界CO2制备疏水改性聚丙烯酸;丙烯酸十八酯;超临界二氧化碳;疏水缔合     

硅灰石填充尼龙66的力学性能

硅灰石填充尼龙６６的力学性能王雪芹，李滨耀（中国科学院长春应用化学研究所长春１３００２２）关键词硅灰石，尼龙６６，填充改性，力学性能硅灰石是一种工业矿物，具有完整的短纤维针状结构，在塑料的填充改性中，能够与石棉、滑石、云母等相媲美，在欧美占无机填料市...     

超临界CO2溶胀聚合法制备聚丙烯酸/尼龙1313及聚苯乙烯/尼龙1313共混物

超临界CO2溶胀聚合法制备聚丙烯酸/尼龙1313及聚苯乙烯/尼龙1313共混物;超临界CO2;聚丙烯酸;聚苯乙烯;尼龙1313;共混     

可分散性纳米SiO2对尼龙66结晶行为的影响

可分散性纳米SiO2对尼龙66结晶行为的影响;纳米ＳｉＯ２;尼龙６６;结晶行为     

超临界CO2辅助制备聚苯乙烯/尼龙1010共混物及其结晶形态

超临界CO2辅助制备聚苯乙烯/尼龙1010共混物及其结晶形态;超临界CO2;插嵌;共混;尼龙1010;苯乙烯;附生结晶     

蒙脱土对尼龙66熔融与结晶行为的影响

通过DSC方法研究了蒙脱土对尼龙66熔融与结晶行为的影响,探讨了蒙脱土对尼龙66结晶的成核作用。发现有机蒙脱土使尼龙66的熔融峰温度Tm提高5.3℃,使结晶峰温度提高13－24℃,二次熔融多产生双重熔融峰,蒙脱土的加入有利于生成低温峰。     

超临界CO2协助三单体接枝改性聚丙烯

利用超临界二氧化碳(SC CO2)作为单体的溶剂和聚丙烯的溶胀剂, 通过自由基接枝聚合合成了聚丙烯与丙烯酸、甲基丙烯酸甲酯以及马来酸酐的接枝产物PP-g-(AA-MMA-MAH). 在单体的选择上采取软、硬单体复配的方式来调节链的柔韧性. 考察了溶胀条件、接枝条件以及单体配比对接枝反应的影响, 研究结果表明, PP和单体以及引发剂在7.74 MPa、47 ℃下溶胀5 h后, 75 ℃下反应3 h时接枝率为4.31%, 接枝效率可达71.83%. 产品表征说明单体均匀地接枝到聚丙烯颗粒上; 改性后聚丙烯水润湿角降低, 亲水性能得到明显改善; 接枝单体的引入提高了PP的热稳定性.     

超临界CO2协助多单体接枝改性聚丙烯

利用超临界CO2作为溶胀剂和携带剂,使小分子单体马来酸酐和苯乙烯单体(MAH与St)及引发剂过氧化苯甲酰(BPO)插嵌进入聚丙烯(PP)基质中,然后在100℃条件下反应4 h得到接枝产物。研究了不同超临界CO2条件及引发剂浓度对接枝率的影响,固定超临界流体压力,改变温度,42℃为最佳温度,接枝率达到2.2%;固定温度,改变压力,10 MPa为最佳条件,接枝率为2.3%。对样品的FT-IR和SEM分析表明,共单体确实接枝到了PP分子链上,而DSC分析表明,随着接枝率的提高,材料的熔点(Tm)及表观结晶度(Ca)下降。这可能是接枝破坏了PP链结构的规整性,同时扩大了分子链间的距离所致。     

超临界CO2中丙烯酸含氟酯疏水改性聚丙烯酸的合成

研究了在超临界二氧化碳条件下 ,丙烯酸 1,1 二氢全氟辛酯 (FOA)对聚丙烯酸疏水改性的共聚反应 .发现与通常聚合方法相比含氟丙烯酸酯的产率得到提高 ;反应时间从 2 4h缩短到 4h ;所得产物的后处理也更容易 .同时发现温度对反应有影响 ,含氟酯单体在低温 (T <5 5 0℃ )时活性高于丙烯酸单体 ,在高温 (T >6 0 0℃ )时丙烯酸活性提高较大 .而共聚物水溶液粘度随pH值变化先上升后下降 ,在pH =5 0出现峰值 ,显示其中有分子间缔合存在 .与改性聚丙烯酰胺不同 ,改性聚丙烯酸水溶液粘度随FOA含量的增加而单调上升 ,也证明了分子间缔合的存在     

竹纤维改性聚丙烯超临界CO2发泡性能的研究

为了提高竹纤维的分散性,借鉴打浆造纸法制备得到了已表面处理的竹纤维和聚丙烯纤维的复合材料,并在扫描电镜下对复合材料样品的断面进行了表征.结果表明,打浆造纸法这种工艺很好地解决了竹纤维在聚丙烯中的分散,得到了竹纤维分布均匀的竹纤维/聚丙烯复合材料;并以竹纤维含量为25％的复合材料作为超临界CO2发泡的研究对象,根据异相成...     

超临界co2中模板法制备氧化铝多孔材料

超临界co2;活性炭;模板;氧化铝;多孔     

Oxidation of Styrene with Molecular Oxygen in Supercritical CO2

The oxidation of styrene with molecular oxygen catalyzed by PdCl2 CuCl2 has been investigated in supercritical CO2 with a batch reactor. The oxidative system of styrene contains four components at the beginning and seven components during the reaction. The critical temperature, critical pressure, and critical density at different conversions are determined by using a high-pressure view cell. The effect of phase behavior on the conversion and selectivity were studied. Experimental results showed that the critical parameters of the reaction mixture at fixed initial molar ratio changed with the conversion of reactant. The conversion of styrene reached maximum near the critical density of the reaction mixture. Product selectivity also varied with density of reaction mixture and could be tuned to some degree.     

Modification of Nylon Membrane Used for Affinity Adsorption

Using microporous affinity membrane in separation has advantages of large specific area,low backpressure and fast separation ratel. This led to obtain high purity proteins invery short time and reduce the possibility of denaturation of biomelecules in largelysimplified separation process. Nylon membrane offers narrow pore size distributionand good mechanical rigidity. However, nylon membrane has low concentration ofprimary amino group and nonspecific adsorption of protein'. To solve these prob…     

尼龙66/SiO2纳米微粒复合材料的结晶行为

采用双螺杆熔融共混法制备了尼龙66/S iO2纳米微粒复合材料,用X射线衍射法和示差扫描量热法比较了干态和湿态两种制备条件下复合材料的结晶行为;并用修正的Avram i方程的Jeziorny法研究了纳米复合材料的非等温结晶动力学行为.     

超临界CO2中以活性碳为模板由TEOS制备多孔SiO2

在超临界CO2中以活性碳为模板由正硅酸乙酯(TEOS)前体涂层焙烧法制备多孔SiO2材料。结构分析表明,超临界涂层法制备的多孔SiO2材料的比表面积、比孔容和平均孔径分别达到1147m2/g、1.4cm3/g和2.20nm,优于常规液相浸渍涂层法。并研究了活性碳含水量、超临界涂层的温度和压力等因素对涂层效果的影响,确定了较好的涂层条件。     

Gated Channels and Selectivity Tuning of CO2 over N2 Sorption by Post‐Synthetic Modification of a UiO‐66‐Type Metal–Organic Framework

The highly porous and stable metal–organic framework (MOF) UiO‐66 was altered using post‐synthetic modifications (PSMs). Prefunctionalization allowed the introduction of carbon double bonds into the framework through a four‐step synthesis from 2‐bromo‐1,4‐benzenedicarboxylic acid; the organic linker 2‐allyl‐1,4‐benzenedicarboxylic acid was obtained. The corresponding functionalized MOF (UiO‐66‐allyl) served as a platform for further PSMs. From UiO‐66‐allyl, epoxy, dibromide, thioether, diamine, and amino alcohol functionalities were synthesized. The abilities of these compounds to adsorb CO₂ and N₂ were compared, which revealed the structure–selectivity correlations. All synthesized MOFs showed profound thermal stability together with an increased ability for selective CO₂ uptake and molecular gate functionalities at low temperatures.     

Optical Diagnostics of Supercritical CO2 and CO2-Ethanol Mixture in the Widom Delta

The supercritical CO₂ (scCO₂) is widely used as solvent and transport media in different technologies. The technological aspects of scCO₂ fluid applications strongly depend on spatial–temporal fluctuations of its thermodynamic parameters. The region of these parameters’ maximal fluctuations on the p-T (pressure-temperature) diagram is called Widom delta. It has significant practical and fundamental interest. We offer an approach that combines optical measurements and molecular dynamics simulation in a wide range of pressures and temperatures. We studied the microstructure of supercritical CO₂ fluid and its binary mixture with ethanol in a wide range of temperatures and pressures using molecular dynamics (MD) simulation. MD is used to retrieve a set of optical characteristics such as Raman spectra, refractive indexes and molecular refraction and was verified by appropriate experimental measurements. We demonstrated that in the Widom delta the monotonic dependence of the optical properties on the CO₂ density is violated. It is caused by the rapid increase of density fluctuations and medium-sized (20–30 molecules) cluster formation. We identified the correlation between cluster parameters and optical properties of the media; in particular, it is established that the clusters in the Widom delta acts as a seed for clustering in molecular jets. MD demonstrates that the cluster formation is stronger in the supercritical CO₂-ethanol mixture, where the extended binary clusters are formed; that is, the nonlinear refractive index significantly increased. The influence of the supercritical state in the cell on the formation of supersonic cluster jets is studied using the Mie scattering technique.