新型暂堵酸化用自降解暂堵剂的制备及现场应用

针对传统暂堵酸化用暂堵剂颗粒耐酸性差、降解性差和除堵工艺复杂等问题，本研究通过水溶液自由基聚合法制备了一种新型的自降解暂堵剂CQZDJ。考察了单体加量、交联剂加量、引发剂加量对CQZDJ凝胶强度和降解性的影响；通过FT-IR、TGA、SEM对其结构进行表征；并对其降解机理进行了探讨；最后在长8区块的环平81-8实验井进行了现场实践。结果表明：CQZDJ凝胶强度及降解时间与单体加量、交联剂加量、引发剂加量成正比关系，且降解时间可控；降解性实验表明CQZDJ在(1%~10%)HCl溶液、水、（2%~10%）NaCl溶液中均可在4 d内完全降解，具备良好的降解性能，对地层伤害小；SEM照片显示CQZDJ的降解过程是从初始三维网状结构逐渐崩解为层状结构，最终降解为无规则线性小分子链的过程；暂堵后现场流压上升6.3 MPa，日产油由3.87 t/d增产至5.22 t/d，实现了储层的有效改造，增产效果显著。      

Effect of acidification treatment and morphological stability of sulfonated poly(arylene ether sulfone) copolymer proton‐exchange membranes for fuel‐cell use above 100 °C

Directly copolymerized wholly aromatic sulfonated poly(arylene ether sulfone) copolymers derived from 4,4′‐biphenol, 4,4′‐dichlorodiphenyl sulfone, 3,3′‐disulfonated, and 4,4′‐dichlorodiphenyl sulfone (BPSH) were evaluated as proton‐exchange membranes for elevated temperature operation (100–140 °C). Acidification of the copolymer from the sulfonated form after the nucleophilic step (condensation) copolymerization involved either immersing the solvent‐cast membrane in sulfuric acid at 30 °C for 24 h and washing with water at 30 °C for 24 h (method 1) or immersion in sulfuric acid at 100 °C for 2 h followed by similar water treatment at 100 °C for 2 h (method 2). The fully hydrated BPSH membranes treated by method 2 exhibited higher proton conductivity, greater water absorption, and less temperature dependence on proton conductivity as compared with the membranes acidified at 30 °C. In contrast, the conductivity and water absorption of a control perfluorosulfonic acid copolymer (Nafion 1135) were invariant with treatment temperature; however, the conductivity of the Nafion membranes at elevated temperature was strongly dependent on heating rate or temperature. Tapping‐mode atomic force microscope results demonstrated that all of the membranes exposed to high‐temperature conditions underwent an irreversible change of the ionic domain microstructure, the extent of which depended on the concentration of sulfonic acid sites in the BPSH system. The effect of aging membranes based on BPSH and Nafion at elevated temperature on proton conductivity is also discussed. © 2003 Wiley Periodicals, Inc. J Polym Sci Part B: Polym Phys 41: 2816–2828, 2003     

钒液流电池用碳纸电极改性的研究

采用红外光谱和扫描电镜等手段研究了浓硫酸处理前、后碳纸的表面结构和形貌的变化。并将这类碳纸用作全钒液流氧化还原电池电极材料,对其电化学性能进行了详细研究。结果表明通过酸处理,碳纸表面有-COOH官能团生成,其电化学活性增强。酸处理后的碳纸电极组装成的电池在电流密度20 mA·cm^-2时有良好充放电性能,平均电流和电压效率达到95%和82%。     

离子色谱法测定电厂凝水处理模拟系统高纯水中的全铁

研究了用离子色谱法测定电厂凝水处理系统中高纯水中全铁的方法，用过硫酸铵将水样中的铁全部转化成Fe^3 ，再用浓缩柱浓缩样品，离子色谱法分析Fe^3 ，得到全铁的含量，检出限为1μg/L。     

Research of the relationship of intracellular acidification and apoptosis in Hela cells based on pH nanosensors

In this paper,the relationship of intracellular acidification and apoptosis in Hela cells induced by vin-cristine sulfate has been studied by use of the ratiometric pH nanosensors that have been developed by our group,employing fluorescein isothiocyanate(FITC) doped as the pH-sensitive dye and Tris(2,2'-bipyidyl) dichlororuthenium(II) hexahydrate(RuBpy) doped as reference dye. The pH change of the Hela cells induced by vincristine sulfate has been monitored in vivo,in situ and real time by use of the ratiometric pH nanosensors. The experimental results show that the pH of the apoptotic Hela cells induced by vincristine sulfate has been acidified from 7.11 to 6.51,and the percentage of intra-cellular acidification is correlated with the induced concentration and incubation time of the vincristine sulfate. The further study of the percentage of intracellular acidification and the percentage of apop-tosis of Hela cells at the same time reveals that apoptosis of Hela cells induced by vincristine sulfate is preceded by intracellular acidification. These results would provide theoretical foundation for the therapy of cancer through interfering the pH of cells by use of vincristine sulfate or other anti-cancer drugs.     

Characterisation and deployment of an immobilised pH sensor spot towards surface ocean pH measurements

The oceans are a major sink for anthropogenic atmospheric carbon dioxide, and the uptake causes changes to the marine carbonate system and has wide ranging effects on flora and fauna. It is crucial to develop analytical systems that allow us to follow the increase in oceanic pCO₂ and corresponding reduction in pH. Miniaturised sensor systems using immobilised fluorescence indicator spots are attractive for this purpose because of their simple design and low power requirements. The technology is increasingly used for oceanic dissolved oxygen measurements.     

污泥厌氧水解/酸化的影响因素及研究进展

污泥厌氧水解/酸化作为一种新型的污泥处置技术,由于具有较好的处理效果,已逐渐成为环境化学研究领域的热点。本文综述了国内外污泥厌氧水解/酸化产酸的研究现状,重点阐述了营养物质在厌氧条件下的化学变化以及pH、温度、氧化还原电位、碳氮比(C/N)、泥龄(SRT)及表面活性剂等对污泥厌氧酸化的影响,对其研究进展进行综述,并指出了污泥厌氧水解/酸化产酸在污泥处置方向的可行性和应用前景。     

酸化铝锌复合交联蒙脱土催化合成缩酮和缩醛

缩酮(醛)是一类有天然花香、果香或特殊香味的香料,也常用于有机合成的羰基保护或作为反应中间体[1].其工业合成一般是在无机质子酸的催化下进行[2],这类催化剂存在副反应多、产品纯度不高、设备腐蚀严重、后处理中含有大量酸性废水及造成环境污染等缺点.     

基于微流控芯片的乳腺癌细胞微环境酸化检测

建立了基于微流控芯片的乳腺癌微环境酸化模型和动态检测微环境酸化情况的分析方法。设计了一种多层复合式微流控芯片,将乳腺癌细胞悬液引入含有水凝胶前体的芯片培养室后,在硝酸纤维素薄膜上固化形成3D培养支架。芯片通道连续灌流模拟血流供应,并将非电化学的pH检测器引入芯片,通过图像分析得到实时的pH变化。通过观察癌细胞的存活率、增殖率、乳酸水平及pH值,分析微环境的酸化情况,同时与正常细胞进行比较。结果表明,连续灌流培养7 d,乳腺癌细胞的存活率保持在90%以上;随着培养天数的增加,芯片上癌细胞微环境的pH值逐渐降低,且灌流速度越低,pH值下降越明显,而正常细胞微环境的pH值无明显变化。基于微流控芯片的微环境酸化检测平台可实时动态检测微环境的pH值,有望成为相关肿瘤研究的有力工具。     

Probing Dynamic Features of Phagosome Maturation in Macrophage using Au@MnOx@SiO2 Nanoparticles as pH-Sensitive Plasmonic Nanoprobes

Phagosome maturation in macrophage is essential to the clearance of pathogenic materials in host defence but the dynamic features remain difficult to be measured in real time. Herein, we reported the multilayered Au@MnO_x@SiO₂ nanoparticle as a robust pH-sensitive plasmonic nanosensor for monitoring the dynamic acidification features over the phagosome maturation process in macrophage under darkfield microscopy. For this multilayered nanosensor, the gold nanoparticle core plays a role of signal reporter, the MnO_x shell and the outmost SiO₂ act as the sensing layer and the protecting layer, respectively. After subject to the acidic buffer solution, the MnO_x layer in the multilayered nanoprobe could be decomposed rapidly, resulting in a remarkable spectral shift and color change under darkfield microscopy. We demonstrated this nanosensor for the investigation of single phagosome acidification dynamics by monitoring the color changes of nanoprobes after phagocytosis over time. The nanoprobes after phagocytosized in macrophage displayed a slight color change within the first hour and then cost several minutes to change from red to green in the next stage, indicating the phagosome undergoes a slow first and then fast acidification feature as well as a slow-to-fast acidification translation over the phagosome maturation process. Moreover, we validated that the slow-to-fast acidification translation was dependent on the activation of V-ATPase from the ATP depletion assay. We believed that this nanosensor is promising for studying the dynamic acidification features as well as disorders in phagosome maturation in phagocytic cells, which might provide valuable information for understanding the disease pathogenesis related to phagosome dysfunctions.