零价铁耦合厌氧微生物法在废水处理中的应用

零价铁(ZVI)与厌氧微生物的耦合是一项很有前景的技术,在难降解有机废水的去除中得到了广泛关注.该耦合技术将ZVI技术的高效性与厌氧生物技术的经济性有效融合,在多元微电场和厌氧微生物协同作用下,有效降低难降解有机物的生物抑制性和毒性.本文综述了此技术处理工业废水的潜在机理、实际应用中主要操作参数及影响条件以及处理含氯化...     

光热协同催化去除挥发性有机化合物和CO的研究进展

随着社会和经济的快速发展,环境污染和能源短缺等问题,尤其是空气污染,已经影响了人类的可持续发展.挥发性有机化合物(VOCs),如苯、甲苯、甲醛和丙酮是主要的空气污染物,它们主要来源于油漆、有机化学品、石油化工产品、药物和工业生产过程.大多VOCs具有特殊的气味,而且具有一定的毒性、致畸性和致癌作用,尤其是苯、甲苯和甲醛...     

Assembled Organoruthenium(II) for Formaldehyde Decomposition and Hydrogen Production

Formaldehyde decomposition is not only an attractive method for hydrogen production, but also a potential approach for gaseous formaldehyde removal. In this research, we prepare some assembled organoruthenium through coordination reaction between Ru(p-Cymene)Cl₂ and bridge-linking ligands. It is a creative approach for Ru(p-Cymene)Cl₂ conversion into heterogeneous particles. The rigidity of bridge-linking ligand enables assembled organoruthenium to have highly ordered crystalline structure, even show clear crystal lattice with spacing of 0.19 nm. XPS shows the N−Ru bond are formed between bridge-linking ligand and Ru(p-Cymene)Cl₂. The assembled organoruthenium has high abundant active sites for formaldehyde decomposition at low temperature. The reaction rate could increase linearly with temperature and formaldehyde concentration, with a TOF of 2420 h⁻¹ at 90 °C. It is promising for gaseous formaldehyde decomposition in wet air or nitrogen. Formaldehyde conversion is up to 95 % over Ru-DAPM is 4,4′-diaminodiphenylmethane at 90 °C in air. Gaseous formaldehyde decomposition is a two-steps process under oxygen-free condition. Firstly, formaldehyde dissolve in water, and be converted into hydrogen and formic acid through formaldehyde-water shift reaction. Then intermediate formic acid will further decompose into hydrogen and carbon dioxide. We also find formaldehyde decomposition is a synergetic catalysis process of oxygen and water in moist air. Oxygen is conducive to formic acid desorption and decomposition on the active sites, so assembled organoruthenium exhibit slightly higher conversion for formaldehyde decomposition in moist air. This work proposes a distinctive method for gaseous formaldehyde decomposition in the air, which is entirely different from formaldehyde photocatalysis or thermocatalysis oxidation.     

Polyphenol-Based Nanosystems for Next-Generation Cancer Therapy: Multifunctionality,Design, and Challenges

With the continuous updating of cancer treatment methods and the rapid development of precision medicine in recent years, there are higher demands for advanced and versatile drug delivery systems. Scientists are committed to create greener and more effective nanomedicines where the carrier is no longer limited to a single function of drug delivery. Polyphenols, which can act as both active ingredients and fundamental building blocks, are being explored as potential multifunctional carriers that are efficient and safe for design purposes. Due to their intrinsic anticancer activity, phenolic compounds have shown surprising expressiveness in ablation of tumor cells, overcoming cancer multidrug resistance (MDR), and enhancing immunotherapeutic efficacy. This review provides an overview of recent advances in the design, synthesis, and application of versatile polyphenol-based nanosystems for cancer therapy in various modes. Moreover, the merits of polyphenols and the challenges for their clinical translation are also discussed, and it is pointed out that the novel polyphenol delivery system requires further optimization and validation.     

环糊精手性微反应器中苯乙烯的不对称环氧化反应

研究了酮与环糊精手性协同催化作用下,用非手性酮与过氧硫酸氢钾(商品名Oxone)原位产生的二氧杂环丙烷实现了对包合在环糊精手性微反应器中苯乙烯的不对称环氧化反应,考察了α-环糊精、β-环糊精、γ-环糊精与不同的酮协同催化反应效果,并对协同催化反应机理进行了探讨.结果表明,β-环糊精和甲基异丁基酮(MIBK)及Oxone原位形成的二氧杂环丙烷具有较好的协同催化作用;MIBK用量、碳酸氢钠用量、反应时间和温度等因素对反应产物的收率和对映体选择性有一定的影响.在优化条件下,环氧苯乙烷的ee值可达46%.     

阻垢剂阻BaSO4垢性能的电导滴定评价法

采用一种基于电导滴定原理的评价方法,通过测定电导滴定过程中不同阻垢剂在相同浓度下所能维持的BaSO4的最大相对过饱和度来评价阻垢性能。实验对阻垢剂聚环氧琥珀酸(PESA)、聚天冬氨酸(PASP)、二亚乙基三胺五亚甲基膦(DEPTMP)、六偏磷酯钠(SHMP)阻BaSO4垢的性能分别采用了电导滴定法及静态阻垢法进行测定并比较。电导滴定法对阻垢剂阻BaSO4垢性能的测试结果表明,阻垢剂PESA、PASP、DTPMP和SHMP对BaSO4垢的阻垢能力大小为:PESA>PASP>DEPTMP>SHMP,这与静态阻垢法的实验结果一致,表明电导滴定法与静态阻垢法对阻垢剂阻BaSO4垢的评价结果具有一致性,电导滴定法评价阻垢剂对BaSO4垢的阻垢性能具有快速、简单、易行的优点。而且实验表明,电导滴定法的RSD为0.020,而静态阻垢法为0.069,说明电导滴定法的重现性优于静态阻垢法。该法还可用于评价阻垢剂对BaSO4垢的协同阻垢效应。     

1,9—双（1′—苯基—3′—甲基—5′—氧代吡唑—4′—基）壬二酮—（1,9）与三？…

研究了１，９－双（１′－苯基－３′－甲基－５′－氧代吡唑－４′－基）壬二酮－（１，９）（ＢＰＭＰＮＤ，Ｈ２Ａ）与三辛基氧膦（ＴＯＰＯ，Ｂ）的氯仿溶液，从硝酸介质中对Ｌａ（Ⅲ），Ｄｙ（Ⅲ）的协同萃取，计算了体系的酸性协萃系数ＲＡ和协萃系数Ｒ，用斜率法测得协萃合物的组成ＬａＡ．ＨＡ．Ｂ和ＤｙＡ．ＨＡ．Ｂ计算了协萃取平衡常数，研究了温度对协萃反应的影响，用萃取法制得了固态协萃合物，并对其组成，ＩＲ及ＴＧ     

Gold Nanorod–Photosensitizer Complex Obtained by Layer‐by‐Layer Method for Photodynamic/Photothermal Therapy In Vitro

Gold nanorod (GNR)–photosensitizer (PS) complex was prepared using anionic PS (sodium salt of purpurin‐18) and cationic poly(allylamine hydrochloride) by layer‐by‐layer method, and was characterized by transmission electron microscopy, UV‐vis spectroscopy, and zeta potential. The GNR–PS complex is a promising agent for synergistic (photothermal and photodynamic) therapy (PTT/PDT), in which PTT generates heat as well as operates the PS release which maximize the following PDT activity. The combined dual therapy, PTT followed by PDT, exhibits a significantly higher photocytotoxicity result based on synergistic effect of hyperthermia from PTT as well as singlet oxygen photogeneration from PDT.     

β-环糊精衍生物毛细管气相色谱固定相的研究

将全甲基-β-环糊精、全戊基-β-环糊精及二者的混合液分别静态涂渍在氯化钠粗糙化的弹性石英毛细管内壁.为提高固定相的色谱性能,将环糊精衍生物与OV-1701按1∶4的质量比相混合,制备手性柱.对毛细管的特性、固定相的极性进行了测试,并对手性化合物(±)茚满醇、DL-丙氨酸、DL-缬氨酸、(±)乙酸二氢香芹酮等难分离物质对进行了拆分.结果表明,三种手性固定相均属于中等极性,具有较好的分离性能和成膜能力.分离效果表明,混合固定相对手性化合物及难分离物质对的分离存在协同效应.     

Synergistic effects of β‐cyclodextrin containing silicone oligomer on intumescent flame retardant polypropylene system

The effects of β‐cyclodextrin containing silicone oligomer(CDS), as a synergistic agent, on the flame retardancy and mechanical properties of intumescent flame retardant polypropylene composites were studied by adding different amounts of CDS in intumescent flame retardants. The limiting oxygen index (LOI), UL‐94 test, thermogravimetric analysis (TGA), and scanning electron microscopy (SEM) were utilized to evaluate the synergistic effects of CDS in the composites. It was found that after a little amount of CDS partially replaced a charring‐foaming agent (CFA) in IFR, LOI values of the composites were enhanced and they obtained a UL‐94 V‐0 rating. IFR system containing 6.25wt% CDS presented the best flame retardancy in PP. The experimental results obtained from LOI and UL‐94, TGA, SEM, and mechanical properties indicated that the combination of CDS and CFA presents synergistic effects in flame retardancy, char formation, and mechanical properties of the composites. This is probably due to different structures of polyhydroxyl macromolecules (CDS and CFA), the existence of dimethyl silicone group in CDS, and the toughness of epoxy silicon chain in CDS. SEM results proved that the interfacial compatibility between IFR and PP was improved by CDS. Copyright © 2009 John Wiley & Sons, Ltd.