气相色谱用氦等离子体离子化检测器研究进展

本文对用于气相色谱的直流放电等离子体、微波等离子体和脉冲放电等离子体等三种等离子体离子化检测器进行了评述。对气相色谱用等离子体离子化检测器的发展前景进行了展望。     

微波等离子体用于消除温室气体全氟化物的研究进展

根据文献报道,评述了1997-2009年以来微波等离子体用于消除温室气体全氟化物的研究进展。介绍了几类微波等离子体系统,包括放电管型微波等离子体、微波等离子体共振腔反应器、炬型微波等离子体等(引用文献31篇)。     

高效液相色谱-电感耦合等离子体发射光谱联用的瞬时信号采集和处理软件及实际应用

本文对高效液相色谱-电感耦合等离子体原子发射光谱联用技术进行了研究.对所用ICAP-9000型等离子体原子发射光谱仪的控制采样程序进行了部分修改,采集的数据通过异步串行通讯方式由AppleⅡ微机传送至IBM PC286机进行处理。发展的瞬时信号采集程序能满足HPLC的检测要求,并将这一联用技术成功的用于砷的形态分析.     

电感耦合等离子体光谱仪器技术进展与现状

介绍了电感耦合等离子体光谱分析仪器技术的发展历程及主要技术特点,并分别评述了目前三种典型ICP光谱仪器及其技术现状和新进展,它们分别是：顺序扫描型ICP光谱仪、同时型ICP光谱仪及顺序-同时型ICP光谱仪。最后介绍了几种有较好应用前景的光谱新光源：静态高灵敏ICP(SHIP)光源,高功率微波等离子体光源,电容耦合等离子体光源,炬内进样短炬管等。     

微波等离子体光谱技术的发展(二)

微波等离子体光源是一类重要的有较强激发能力的原子发射光谱光源,主要包括微波感生等离子体光源,电容耦合微波等离子体光源及微波等离子体炬光源。本文是微波等离子体光谱技术发展的第二部分,主要介绍了电容耦合微波等离子体光源及微波等离子体炬光源的结构原理和性能。并对它们的技术特点和进展进行评述。     

脉冲电晕等离子体作用下CH4/H2反应的机理

本文利用发射光谱技术,对脉冲电晕等离子体作用CH4/H2反应进行了原位诊断,根据等离子体作用下CH4、H2和CH4/H2体系中部分激发态物种的光谱检测数据和有关实验的结果,结合等离子体特性及小分子光化学反应规律,对等离子体作用CH4/H2转化制备C2烃反应的机理进行了讨论。     

等离子体引发聚丙烯接技苯乙烯共聚物的合成及性能

将等离子体接枝技术用于聚丙烯接枝苯乙烯共聚物的合成．ＦＴ ＩＲ、ＳＥＭ及ＸＰＳ证明所得产物为接枝共聚物．研究了不同等离子体处理体系压强、处理功率，反应瓶不同直径、体积，不同接枝聚合反应时间、温度对接枝率的影响．利用接枝共聚物制备了硫酸钠型离子交换膜，并对其电性能进行了初步探讨．     

高效液相色谱—电感耦合等离子体发射光谱联用的瞬时信号采集和处…

本文对高效液相色液相色谱－电感耦合等离子体原子发射光谱联用技术进行了研究。对所用ＩＣＡＰ－９０００型等离子体原子发射光谱仪的控制采样程序进行了部分修改，采集的数据通过异步串行通讯方式由ＡｐｐｌｅⅡ微机传送至ＩＢＭＰＣ２８６机进行处理。发展的时信号３采集程序能满足ＨＰＬＣ的检测要求，并净这一联用技术成功的用于砷的形态分析。     

锰基氧化物与冷等离子体协同催化氧化VOCs研究进展

挥发性有机化合物(VOCs)对环境的严重污染和对人体的危害引起了人们的重视。冷等离子体与催化剂耦合形成的协同效应可显著提高VOCs低温转化速率,减少二次污染和降低能耗,具有较好的应用前景。协同催化效果主要取决于催化剂物化性能,可通过调控催化剂的组成、粒径和结构改善协同催化活性。锰基氧化物因其具有较高的储氧能力、稳定的晶体结构、较好的氧气活化性能和良好的抗中毒能力等优点而被广泛应用于冷等离子体协同催化净化VOCs的应用研究。通过金属离子掺杂调控锰基氧化物的离子价态、氧迁移率和氧气吸附量,是改善催化剂与等离子体协同催化性能主要方法。本文总结了近年来锰基氧化物与冷等离子体协同催化氧化VOCs的研究进展,主要包括氧化锰晶型、分散度和掺杂金属离子对协同催化氧化VOCs的活性影响趋势及反应机理。分析冷等离子体与锰基氧化物催化剂协同氧化VOCs中存在的问题并对其发展前景进行了展望。     

电感耦合等离子体质谱法分析元素形态的研究进展

介绍了电感耦合等离子体质谱技术的特点,综述了近年来电感耦合等离子体质谱法与色谱、激光烧蚀、流动注射、毛细管电泳和氢化物发生等技术联用在元素形态分析中的应用情况,对各种联用方法的原理和应用范围进行了归纳,最后对电感耦合等离子体质谱技术的发展前景进行了展望。     

Surface characteristic of poly(p‐phenylene terephthalamide) fibers with oxygen plasma treatment

Oxygen plasma is widely employed for modification of polymer surfaces. Plasma treatment process is a convenient procedure that is also environmentally friendly. This study reports the effects of oxygen plasma treatment on the surface properties of poly(p‐phenylene terephthalamide) (PPTA) fibers. The surface characteristics before and after oxygen plasma treatment were analyzed by XPS, atomic force microscopy (AFM) and dynamic contact angle analysis (DCAA). It was found that oxygen plasma treatment introduced some new polar groups (O? C?O) on the fiber surface, increased the fiber surface roughness and changed the surface morphologies obviously by plasma etching and oxidative reactions. It is also shown that the fiber surface wettability was improved significantly by oxygen plasma treatment. Copyright © 2008 John Wiley & Sons, Ltd.     

Plasma Treatment of Glass Surfaces Using Diffuse Coplanar Surface Barrier Discharge in Ambient Air

We report a study on the treatment of flat glass surfaces by ambient air atmospheric pressure plasma, generated by a dielectric barrier discharge of coplanar arrangement of the electrode system—the diffuse coplanar surface barrier discharge (DCSBD). The plasma treatment of glass was performed in both static and dynamic modes. With respect to wettability of the glass surface, treatment in static mode resulted in non-uniform surface properties, whereas dynamic mode provided a fully uniform treatment. A water contact angle measurement was used to determine the efficiency of plasma treatments in dynamic mode and also to investigate a hydrophobic recovery of plasma treated glass surfaces. The X-ray photoelectron spectroscopy measurements showed a decrease of overall carbon concentrations after plasma treatment. A deconvolution of C1s peak, showed that a short plasma treatment led to decrease of C–C bonds concentration and increases of C–O and O–C=O bond concentrations. An enhancing influence of the glass surface itself on DCSBD diffuse plasma was observed and explained by different discharge onsets and changes in the electric field distribution.     

Atmospheric plasma treatment of pre‐electrospinning polymer solution: A feasible method to improve electrospinnability

The electrospinnability of polyethylene oxide (PEO) was manipulated by atmospheric plasma treatment of pre‐electrospinning solutions. Conductivity, viscosity, and surface tension of PEO solutions increased after plasma treatment, and the plasma effect remained longer when the solution concentrate increased. Both untreated and treated solutions were then electrospun, and the morphology of the resultant nanofibers was observed by SEM. Atmospheric plasma treatment improved the electrospinnability of PEO solutions and led to less beads and finer diameter distribution in the resultant nanofibers. Additionally, plasma treatment of the pre‐electrospinning solutions affected the crystal structure of resultant nanofibers. These results suggest that atmospheric plasma treatment is a feasible approach to improve the electrospinnability of polymer solutions and can used to control the structure of electrospun nanofibers. © 2010 Wiley Periodicals, Inc. J Polym Sci Part B: Polym Phys, 2011     

含二氮杂萘酮结构聚醚砜酮膜的微波等离子体处理研究

含二氮杂萘酮结构型聚醚砜酮(ＰＰＥＳＫ)是近年来本研究组开发成功的新型耐高温聚合物[1].该聚合物具有优异的力学性能和突出的耐热性,玻璃化转变温度(Ｔｇ)为265～305℃(随砜酮比不同而变化),其结构式如下:ＯＮＮＯＳＯＯＯＮＮＯＣＯ　　研究表明,用ＰＰＥＳＫ制成的气体分离膜对Ｏ2/Ｎ2、ＣＯ2/Ｎ2有良好的气体渗透性和透过选择性[2,3],但由于其亲水性不高进而限制了它在纳滤膜和反渗透膜等方面的应用,因此有必要对其进行改性.目前,常用的膜及膜材料改性的方法有磺化、氯甲基化季胺化、接枝等化学改性和低温等离子体与辐射等物理改性.其…     

聚对苯二甲酸乙二酯的等离子体表面改性研究

阐述了等离子体原理,综述了等离子体对聚对苯二甲酸乙二酯表面改性的研究工作,大量的实验数据表明了这种方法可以成功改善各种性能。等离子体处理后PET材料表面粗糙度增加,并产生化学基团,因此可改善以下各种性能:润湿性、粘接性、染色性、抗静电性,对人体的生物相容性,添加TiO2的杀菌性,PET表面化学镀金属的性能。PET表面的刻蚀作用,导致其重量的减轻,可替代部分碱减量处理。     

Degradation of β-chitosan by solution plasma process (SPP)

In this work, the solution plasma process (SPP) is used to treat β-chitosan solutions in order to induce the degradation of chitosan. The effects of solution plasma on the properties of chitosan solutions are investigated. The treatment time was varied from 0 to 300 min. The plasma-treated chitosan was characterized by the following methods; molecular weight by GPC, viscosity, crystal structure by XRD, chemical characteristics by FT-IR, solubility by UV–vis spectrophotometer, and fractional analysis. The results showed that after treatment with plasma for 15–120 min, the viscosity of the chitosan solution and apparent molecular weight of chitosans decreased remarkably, when compared to those of untreated sample. Longer treatment times had less effect on both viscosity and molecular weight of the samples. This suggested that the degradation process of chitosan occurred during plasma treatment. The XRD analysis showed that the crystallinity of chitosan was destroyed, resulting in amorphous structure. FT-IR analysis revealed that chemical structure of chitosan was not affected by solution plasma treatment. The %yield of water-soluble chitosan was increased with increasing plasma treatment time. These results implied that solution plasma process is able to induce the degradation of chitosan solutions.     

Plasma pretreatment of polycarbonate substrates for indium zinc oxide film deposition

The influence of plasma treatment of polycarbonate (PC) substrates on the morphological, electrical, and adhesion properties of deposited amorphous transparent indium zinc oxide (IZO) by direct current magnetron sputtering was investigated by analyzing atomic force microscopy, contact angles, Hall, and nano‐scratch measurements. The surfaces of PC substrates were performed by plasma treatment at various processing times in Ar/O₂ mix atmosphere. The atomic force microscopy images indicated that the microstructure of the substrates considerably influenced the surface morphology of deposited IZO films, and the least surface roughness of IZO was obtained after 5‐s plasma treatment. The IZO film deposited on PC with 5‐s plasma treatment presented an improved electrical conductivity and thermal stability after annealing at 120 °C in air, whereas the significant decrease in carrier concentration and increase in resistivity with extending plasma treatment time were observed, which was attributed to the elevated oxygen adsorption during annealing for a loosely packed structure. Moreover, the adhesion properties of IZO films with PC substrates decreased after 30‐s plasma treatment because of the significant difference on the surface polarity between the PC and thin films and the increased roughness caused by plasma etching. Copyright © 2016 John Wiley & Sons, Ltd.     

Effect of Plasma Treatment on the Structures and Properties of Konjac Glucomannan Film

To understand the effect of plasma treatment on the Konjac glucomannan film, the nitrogen plasma was injected into the film by ion beam injection machine in this study. The structures and properties of Konjac glucomannan film after plasma treatment were analyzed by Infrared spectroscopy, Raman spectrum, X-ray, ect. The result showed that nitrogen groups appeared in the KGM molecular chain and part of this chain fractured, and the number of hydrogen bonds increased after the treatment of plasma. The form of KGM molecule remained amorphous non-crystalline state, but the crystalline region was increased and became more ordered. The mechanical property of tensile strength and breaking elongation was improved, while the WVP was decreased. The nitrogen groups were grafted on the KGM molecular chain after plasma treatment, which led to the improvement of the properties of KGM film.     

聚乙丙交酯电纺纳米纤维膜的等离子体改性及性能研究

采用等离子体表面处理的方法, 通过正交实验设计, 以纤维膜表面引入的氮含量为响应变量, 确定了NH3等离子体改性PLGA电纺纤维膜的最佳条件, 并在PLGA纤维膜表面成功地引入了功能性氨基基团. 研究结果表明, 改性后PLGA电纺纤维膜的力学性能有所降低, 但表面亲水性明显增强.     

TiO2纳米粒子膜表面性质的研究

ＴｉＯ_２纳米粒子膜在光催化降解大气和水中的污染物［１］、光电转换［２］、光致变色［３］等方面有广阔的应用前景,近年来受到了科学界的高度重视．研究表明,膜的表面性质对如上应用有着重要影响．本文采用等离子体化学气相沉积法（ＰＥＣＶＤ法）［４］制备了ＴｉＯ２的纳米粒子膜,分别采用ＴｉＣｌ４等离子体或Ｏ２等离子体处理膜表面,获得两种不同表面性质的ＴｉＯ２纳米粒子膜;并利用表面光电压谱（ＳＰＳ）和电场诱导表面光电压谱（ＥＦＩＳＰＳ）技术对膜的表面性质进行具体分析,探讨了其在光催化领域的可能应用．１实验部…