基于毛细管电泳及微流控芯片的药物提取分离技术

近年来,在提取分离方面出现了许多新技术和新方法.其中毛细管电泳和微流控芯片技术以其微量、高效、快速等特点,在药物提取分离中已渐显优势.该文对基于毛细管电泳和微流控芯片的两相电泳技术、微流控液液萃取技术、微流控固液萃取技术、微流控过滤式分离技术、微流控膜分离技术在药物分离提取中的应用进行了综述.     

毛细管电泳和微流控芯片技术在临床尿检中的应用

本文就毛细管电泳和微流控芯片技术在临床尿检中的应用,以及毛细管电泳和微流控芯片技术在尿样前处理、样品富集方面的进展进行了综述。主要介绍了临床尿液一般化学检查和特殊化学检查,着重对肾功能指标的生化检查进行了总结。根据目前的研究状况,对毛细管电泳和微流控芯片技术在临床检测上的应用前景和发展方向进行了展望。     

微流控芯片毛细管电泳在蛋白质分离分析中的应用研究进展

重点介绍了近年来国内外在微流控芯片毛细管电泳法用于蛋白质分离分析方面的研究进展。按照分离模式的不同,综述了各种应用于蛋白质分离的微流控芯片毛细管电泳系统,讨论了抑制芯片中的蛋白吸附的各种方法,并展望了芯片毛细管电泳系统在蛋白质分离领域的发展前景。引用文献47篇。     

微流控芯片电泳在食品安全与环境污染检测中的应用

微流控芯片电泳具有样品和试剂消耗量小、分析速度快、分离效率高以及便于微型化等特点,特别适合于食品安全和环境污染相关的现场快速检测。该文综述了微流控芯片电泳技术在食品安全与环境污染检测方面的研究进展,着重介绍了该技术在食品中有害物质残留、非法食品添加剂以及环境样品中有害无机离子、有机污染物等目标物检测方面的典型应用实例,在此基础上初步讨论了微流控芯片电泳走向实际应用面临的问题和可能的解决办法。     

微流控芯片电泳技术在临床检测中的新进展

微流控芯片电泳技术作为一种消耗少、速度快、效率高的分析技术,可同时实现便携化、集成化、高通量,在临床检测中发挥着重要作用。该文综述了近年来微流控芯片电泳技术在临床应用方面的研究进展,主要包括微流控芯片电泳技术在小分子、氨基酸、蛋白质、核酸、细胞等方面的应用近况。同时,介绍了一种崭露头角的基于大管电泳技术的大通道电泳微流控芯片技术,最后对微流控芯片电泳技术实现临床分析进行了展望。     

微流控芯片系统在单细胞研究中的应用

微流控芯片具有网络式通道结构,扩展了在细胞和亚细胞水平进行生命科学研究的能力,为单细胞研究提供了一个新的平台.在微流控芯片通道中,人们利用气压、液压和电压,或利用介电电泳、光学陷阱、行波介电电泳以及磁场等技术,可以操纵细胞通过或驻留在通道内的任意位置,从而使单细胞计数、筛选以及胞内组分分析等操作大大简化.本文对微流控芯片系统在血液流变学、单细胞操纵与计数以及单细胞胞内组分分析中的应用进行了综述,介绍了用于单细胞研究的多种微芯片系统,讨论了芯片上进行单细胞操纵的各种方法     

整体柱富集技术在微流控芯片系统中的应用

样品预处理技术是微流控芯片技术发展的瓶颈之一。整体材料是近几年在色谱领域发展起来的一种新型色谱填料,具有结构均匀、传质速度快、通透性好、制备过程简单等优点,被广泛用于微流控芯片系统中。该文综述了整体柱富集技术在微流控芯片系统中的应用进展,引用文献80篇。     

基于BioMEMS技术的DNA固相萃取芯片的制备

基于BioMEMS技术,制备一种新型的Si-PDMS-玻璃结构的DNA固相萃取微流控芯片。在硅基片上制备4种固相载体,分析不同载体的性质和制备特点,优选多孔氧化硅作为萃取DNA的固相载体。对比研究芯片的封装工艺,优选压制法制备PDMS-玻璃盖片,采用粘接技术封装芯片。芯片成功提取老鼠全血中的基因组DNA,提取效率为23.5×10-9g/μL全血,并成功进行PCR反应,达到试剂盒水平。固相萃取微流控芯片具有与其他样品处理芯片、PCR芯片和电泳芯片相集成的潜力,可实现对复杂生物样品的检测和分析。     

单细胞分析的研究

单细胞分析是分析化学、生物学和医学之间渗透发展形成的跨学科前沿领域。近年来,毛细管电泳及微流控芯片用于单细胞分析已取得显著进展,特别表现在微流控芯片用于细胞的培养、分选、操纵、定位、分离及检测细胞的组分,实时监测细胞释放,及高通量阵列检测等方面。芯片的单元操作可根据需要灵活组合,显示出其独特的优点。本文重点介绍作者研究组的工作,并对近三年来国内外在毛细管电泳及芯片毛细管电泳用于单细胞分析的新进展进行评论。最后从毛细管电泳与微流控芯片、微流控芯片与细胞界面以及量子点用于探测活细胞等方面,展望了单细胞分析的发展前景。     

基于流体动力单细胞高效捕获的微流控芯片结构研究进展

单细胞分析对于重大疾病的早期诊断及治疗、药物筛选和生理病理过程的研究具有重要意义。微流控芯片能够精确控制单细胞的微环境,实时监测单细胞的行为,已成为单细胞分析的强大工具。单细胞捕获是单细胞分析的重要步骤。目前已报道了多种微流控芯片用于单细胞捕获的方法,其中基于流体动力的微流控芯片单细胞捕获方法具有操作方便、单细胞捕获效率高等优点,受到研究人员的广泛关注及使用。为了全面了解基于流体动力的微流控芯片单细胞捕获方法的研究现状,掌握单细胞高效捕获的微流控芯片结构设计,实现单细胞精准快速分析,本文综述了基于流体动力的单细胞高效捕获（>70%）原理及微流控芯片结构,根据结构设计不同分为微井结构、微柱结构和旁路通道结构,介绍了单细胞高效捕获的微流控芯片优化过程,总结了微流控芯片的材质、结构特点及单细胞捕获效率等,对不同单细胞捕获结构的优势及不足进行了分析。最后,对基于流体动力的微流控芯片单细胞捕获方法的发展趋势进行了展望。     

聚合物锂离子电池不同化成电压下产生气体的研究

应用气相色谱方法初步探讨了聚合物锂离子电池在首次充电过程中于不同化成电压下产生气体的原因和机理.结果表明,当电池电解液采用1mol/LLiPF6-EC～DMC～EMC(三者体积比1∶1∶1)时,于化成电压小于2.5V下,产生的气体主要为H2和CO2等;化成电压为2.5V时,电解液中的EC开始分解,电压在3.0～3.5V的范围内,由于EC的还原分解,产生的气体主要为C2H4;而当电压大于3.0V时,由于电解液中DMC和EMC的分解,除了产生C2H4气体外,CH4,C2H6等烷烃类气体也开始出现;电压高于3.8V后,DMC和EMC的还原分解成为主反应.此外,当化成电压处于3.0～3.5V之间,化成过程中产生的气体量最大;电压大于3.5V后,由于电池负极表面的SEI层已基本形成,因此,电解液溶剂的还原分解反应受抑制,产生的气体的数量也随之迅速下降.     

微流控技术在纳米合成中的应用

微流控技术具有微型化、集成化的特点,且所合成产物形貌和单分散性好,已经越来越多的被应用于纳米材料的合成中。 本文对微流体技术在纳米材料合成中的应用做了系统的阐述。 对微流控芯片中流体流动、混合机理进行了介绍,并详细介绍了微流控芯片的制作工艺,展望了微流体技术在合成纳米材料中应用前景。     

Isobaric cure shrinkage behaviors of epoxy molding compound in isothermal state

The warpage of plastic‐encapsulated IC packages after molding is believed to be induced by thermal and cure shrinkage of epoxy molding compound (EMC). To study the warpage behaviors of EMC, the amount of cure‐induced shrinkage needs to be understood. Volume shrinkage behaviors induced by cure reaction of EMC in isothermal and isobaric states were studied with a differential scanning calorimeter (DSC) and a pressure–temperature‐controlled dilatometer. The results show that higher pressure induce more volume shrinkage under fixed temperature but the difference of volume shrinkage under different pressure levels doesn't obey the principle of linearity. It is observed that the amount of chemical volume shrinkage at 145 °C is higher than those under three other temperatures: 160, 175, and 190 °C. The chemical volume shrinkage of EMC is found to be very process dependent. © 2005 Wiley Periodicals, Inc. J Polym Sci Part B: Polym Phys 43: 2392–2398, 2005     

Different types of electrospun nanofibers and their effect on microfluidic‐based immunoassay

Protein capturing on polymeric substrate of microfluidic devices is a key factor for the fabrication of immunoassay with high sensitivity. In this work, simple and versatile technique of electrospinning was used to produce electrospun nanofibrous membranes (e.NFMs) with high surface area as a substrate for microfluidic‐based immunoassay to increase sensitivity. It was found that the simultaneous use of e.NFM and 1‐Ethylethyl‐3‐(3‐dimethylaminopropyl)‐carbodiimide/N‐Hydroxysuccinimide hydroxysuccinimide as coupling agent has synergic effect on antigen immobilization onto the microchannels. It was found that the oxygen plasma technique for the creation of oxygen containing functional group like carboxyl and hydroxyl causes extreme leakage of solution through the microchannels. Thus, due to capillary effect, it is impossible to use hydrophilic substrate to modify microchannels. In order to compensate this problem, it is propose to utilize other type of polymer for the fabrication of nanofiber to answer this important question that if it is possible to enhance the sensitivity of immunoassay just by changing the polymer type? For this purpose, four different polymers, namely, polycaprolactone, poly lactic‐co‐glycolic acid, poly L‐lactic acid, and polyethersolfone were used as the based material for e.NFM fabrication. Results showed that compared with plain poly (dimethylsiloxane) surface of microchannels, poly lactic‐co‐glycolic acidand poly L‐lactic acid, which inherently contain end‐group of carboxyl in their chemical structure, can improve the protein immobilization, which leads to immunoassay signal enhancement through 1‐ethyl‐3‐(3‐dimethylaminopropyl)‐carbodiimide/N‐hydroxysuccinimide coupling chemistry, significantly.     

微流控芯片免疫分析方法研究进展

综述了微流控芯片免疫分析方法研究新进展。对有关芯片进行了初步分类，并评述了各类芯片的性能与优缺点。尤为关注免疫分析微流控芯片在临床诊断、环境分析等领域的应用研究。引用文献33篇。     

酯交换法合成碳酸甲乙酯研究进展

碳酸甲乙酯(EMC)具有诸多优异的物理和化学性能,作为锂电池电解液溶剂已经被行业广泛认可,酯交换法是中国目前工业生产EMC的主要方法。本研究系统综述了碳酸酯交换反应热力学、动力学、均相及非均相催化剂、反应机理及反应工艺等方面的研究,重点评述了近五年酯交换法制备EMC的最新进展。均相催化剂中以pK_b值(碱度系数)为标准讨论了可溶碱类催化剂碱强度和催化效率之间的关系,探究了咪唑类离子液体阴、阳离子结构对反应效果的影响规律。针对工业上普遍采用的甲醇钠催化剂,描述了其失活现象并阐述了失活机理。详细比较和讨论了非均相催化剂的制备方法、表面酸碱性与催化效率之间的关系,综合评价了不同类别的催化剂催化酯交换反应的优缺点。着眼绿色、高纯、低成本EMC合成技术,高效固体碱催化剂和涉及气、液、固三相的催化精馏技术是今后开发的重点和发展方向。     

An integrated electrophoretic mobility control device with split design for signal improvement in liquid chromatography–electrospray ionization mass spectrometry analysis of aminoglycosides using a heptafluorobutyric acid containing mobile phase

Electrophoretic mobility control (EMC) was used to alleviate the adverse effect of the ion-pairing agent heptafluorobutyric acid (HFBA) in the liquid chromatography–electrospray ionization mass spectrometry (LC-ESI-MS) analysis of aminoglycosides. Aminoglycosides separated by LC were directed to a connecting column before their detection via ESI. Applying an electric field across the connecting column caused the positively charged aminoglycosides to migrate toward the mass spectrometer whereas the HFBA anions remained in the junction reservoir, thus alleviating the ion suppression caused by HFBA. To accommodate the flow rate of a narrow-bore column, minimize the effect of electrophoretic mobility on separation, and facilitate the operation, an integrated EMC device with a split design was fabricated. With the proposed EMC device, the signals of aminoglycosides were enhanced by a factor of 5–85 without affecting the separation efficiency or elution order. For the analysis of aminoglycosides in bovine milk, the proposed approach demonstrates a sensitivity that is at least 10 times below the maximum residue limits set by most countries.     

A facile synthesis of bifunctional phospholipids for biomimetic membrane engineering

We report a facile synthesis of bifunctional phospholipid conjugates by acylation of N-protected lyso-phosphatidylethanolamine with 12-acryloxy-1-dodecanoic acid and followed with deprotection and conjugation with biotin, FITC, Texas Red, or EMC groups. The lipid conjugates can be used to generate a multifunctional substrate-supported phospholipid membrane via bioconjugation reaction to biotin or covalent attachment to EMC at their hydrophilic terminus. In addition, conjugation to fluorophores, FITC or Texas Red, provides a convenient mechanism to monitor lipid membrane formation and stability. Significantly, in situ photopolymerization of the acrylate group at the end of one of two hydrophobic alkyl chains stabilizes the phospholipid membrane.     

Comparative study of codon substitution patterns in foot-and-mouth disease virus (serotype O)

We compared genetic variations in the VP1 gene of foot-and-mouth disease viruses (FMDVs) isolated since 2000 from various region of the world. We analyzed relative synonymous codon usage (RSCU) and phylogenetic relationship between geographical regions, and calculated the genetic substitution patterns between Korean isolate and those from other countries. We calculated the ratios of synonymously substituted codons (SSC) to all observed substitutions and developed a new analytical parameter, EMC (the ratio of exact matching codons within each synonymous substitution group) to investigate more detailed substitution patterns within each synonymous codon group. We observed that FMDVs showed distinct RSCU patterns according to phylogenetic relationships in the same serotype (serotype O). Moreover, while the SSC and EMC values of FMDVs decreased according to phylogenetic distance, G + C composition at the third codon position was strictly conserved. Although there was little variation among the SSC values of 18 amino acids, more dynamic differences were observed in EMC values. The EMC values of 4- and 6-fold degenerate amino acids showed significantly lower values while most 2-fold degenerate amino acids showed no significant difference. Our findings suggest that different EMC patterns among the 18 amino acids might be an important factor in determining the direction of evolution in FMDV.     

镁功能化炭材料的制备及酯交换催化性能研究

利用溶胶-凝胶法一步合成了镁功能化的介孔炭材料,并考察了其在碳酸二甲酯与碳酸二乙酯酯交换反应中的催化性能.利用碱性溶液预处理的介孔Mg-NC材料表现出了优异的催化性能和高稳定性.并通过N_2吸附-脱附、XRD、CO_2-TPD以及NH_3-TPD对材料进行了结构以及表面理化性质的表征.结果表明材料表面的弱酸弱碱中心的协同作用对催化性能的提高起到至关重要的作用.