等离子体原子光谱分析中溶液样品雾化进样方法的新进展

对近年来等离子体原子光谱分析中溶液样品引入方法的新进展作了综述，其中包括气动雾化法、超声雾化法、热雾化法、悬浆雾化法、高水压雾化法及电喷雾法等。文中还根据本课题组多年来的研究经验对每种方法的优缺点及其应用作了简要的介绍和评论。     

High-performance flow atomic spectrometry: New nebulization techniques,on-line speciation and on-line sample pretreatment

An interface-free combination of HPLC separation techniques and methods for element determination by atomic spectrometry can be achieved by hydraulic high-pressure nebulization (HHPN). With high-temperature HHPN (300 ( degrees )C) super heated liquids can be nebulized providing aerosol yields of up to 90% in flame AAS. This new nebulization method combines the advantages of HHPN and thermospray techniques (very small aerosol droplets, high aerosol yield, nebulization of saturated salt solutions).     

High-performance flow atomic spectrometry: New nebulization techniques, on-line speciation and on-line sample pretreatment

An interface-free combination of HPLC separation techniques and methods for element determination by atomic spectrometry can be achieved by hydraulic high-pressure nebulization (HHPN). With high-temperature HHPN (300^°C) super heated liquids can be nebulized providing aerosol yields of up to 90% in flame AAS. This new nebulization method combines the advantages of HHPN and thermospray techniques (very small aerosol droplets, high aerosol yield, nebulization of saturated salt solutions).     

Spray nebulization for sample introduction in ion mobility spectrometry

A new sample introduction system based on spray nebulization has been successfully developed to perform direct analysis of liquid samples by IMS. The system comprises a concentric nebulizer that generates a spray plume which is introduced in the ionization region of the IMS instrument through a temperature controlled transfer line. This system avoids previous problems of direct injection of liquid samples and maintains the countercurrent flow of inert gas necessary for the operation of the IMS instrument. Evaluation of the qualitative and quantitative capabilities of the methodology has been performed after a carefully study of the main variables affecting the spray nebulization and the transport of the analyte molecules through the transfer line. To demonstrate the usefulness of the new sample introduction system, direct analysis of drugs and drug metabolites in saliva or urine samples have been performed, obtaining accurate, reliable and sensitive results. Moreover, analytes with physico-chemical properties that limited the capability of thermal desorption as sample introduction method such as amino acids can be analyzed by using the spray nebulization methodology.     

Flame AAS/flame AES for trace determination in fresh and used lubricating oils with sample introduction by hydraulic high-pressure nebulization

In hydraulic high-pressure nebulization (HHPN) an aerosol is produced by means of an HPLC-pump and a special nebulization nozzle, applying a pressure of about 200 bar. This spray technique has been employed for sample introduction of mineral oil samples in flame atomic absorption/flame emission spectrometry. The determination of the trace elements Al, Cr, Cu, Fe, K, Na, Ni, Pb, Si and V has been investigated. Viscosity hardly acts upon the sensitivity of the determination, thereby avoiding a time consuming dilution of oil samples. By means of two interconnecting sampling valves a calibration method based on the standard addition technique can be performed which is both simple and easy to carry out. In samples of used oils, results for Cu and Pb equalled those of XRF-analysis. Regarding Fe traces, data obtained from AAS and XRF measurement correlate. In comparison with sample uptake by pneumatic nebulization, which is restricted to diluted oil samples, detection limits decrease by a factor of 2 to 4, indicating the dilution required in pneumatic nebulization.     

Flame AAS/flame AES for trace determination in fresh and used lubricating oils with sample introduction by hydraulic high-pressure nebulization

In hydraulic high-pressure nebulization (HHPN) an aerosol is produced by means of an HPLC-pump and a special nebulization nozzle, applying a pressure of about 200 bar. This spray technique has been employed for sample introduction of mineral oil samples in flame atomic absorption/flame emission spectrometry. The determination of the trace elements Al, Cr, Cu, Fe, K, Na, Ni, Pb, Si and V has been investigated. Viscosity hardly acts upon the sensitivity of the determination, thereby avoiding a time consuming dilution of oil samples. By means of two interconnecting sampling valves a calibration method based on the standard addition technique can be performed which is both simple and easy to carry out. In samples of used oils, results for Cu and Pb equalled those of XRF-analysis. Regarding Fe traces, data obtained from AAS and XRF measurement correlate. In comparison with sample uptake by pneumatic nebulization, which is restricted to diluted oil samples, detection limits decrease by a factor of 2 to 4, indicating the dilution required in pneumatic nebulization.     

Investigation of Matrix Effects for Direct Determination of Trace Metals in Seawater Using Direct Sample Insertion -Inductively Coupled Plasma Atomic Emission Spectrometry

Direct sample insertion (DSI) technique is an alternative sample introduction method for inductively coupled plasma atomic emission spectrometry (ICP-AES). Sample introduction efficiency of the DSI technique is 100% versus 3-5% for pneumatic nebulization and 30-40% for ultrasonic nebulization. DSI also has the ability to handle small volume (μL) of solution and small quantity (mg) of solids with little or no sample pre-treatment.     

Ultrasonic nebulization extraction-heating gas flow transfer-headspace single drop microextraction of essential oil from pericarp of Zanthoxylum bungeanum Maxim

The ultrasonic nebulization extraction-heating gas flow transfer coupled with headspace single drop microextraction (UNE-HGFT-HS-SDME) was developed for the extraction of essential oil from Zanthoxylum bungeanum Maxim. The gas chromatography-mass spectrometry was applied to the determination of the constituents in the essential oil. The contents of the constituents from essential oil obtained by the proposed method were found to be more similar to those obtained by hydro-distillation (HD) than those obtained by ultrasonic nebulization extraction coupled with headspace single drop microextraction (UNE-HS-SDME). The heating gas flow was firstly used in the analysis of the essential oil to transfer the analytes from the headspace to the solvent microdrop. The relative standard deviations for determining the five major constituents were in the range from 1.5 to 6.7%. The proposed method is a fast, sensitive, low cost and small sample consumption method for the determination of the volatile and semivolatile constituents in the plant materials.     

Reduction of matrix interferences and improvement of detection power in flame AAS by a high-performance flow/hydraulic high-pressure nebulization system for sample introduction (HPF/HHPN)

Summary For analysis of highly concentrated salt solutions, the samples are injected into a high-performance carrier stream and transported to a special high-pressure nebulization nozzle (max. pressure: 400 bar/40 MPa). An aerosol of very small droplets is formed only by the high fluid pressure without using nebulization gas. The nozzle replaces the pneumatic nebulizer (high-performance flow/hydraulic high-pressure nebulization system: HPF/HHPN). In comparison with pneumatic nebulization, matrix interferences are significantly reduced and sensitivity is improved by factors of 2 to 8 (depending on the element and matrix to be analyzed). For the determination of 10 elements in the matrices Al (30 g/l), Fe (150 g/l) and Cu (330 g/l), the element-specific improvement of the detection power by a factor of 4.1 to 9.7 for Al, 1.3 to 4.9 for Fe and 1.3 to 10 for Cu is achieved.     

PLGA, chitosan or chitosan-coated PLGA microparticles for alveolar delivery? A comparative study of particle stability during nebulization

Various types of rifampicin (RIF)-loaded microparticles were compared for their stability during nebulization. Poly(lactide-co-glycolide) (PLGA), chitosan (CHT) and PLGA/CHT microparticles (MPs) were prepared by emulsion or precipitation techniques. MPs ability to be nebulized (NE%) as well as stability during freeze-drying or/and nebulization (NEED%), were evaluated after RIF extraction from MPs and determination by light spectroscopy. MP mean diameters and ζ-potential values were measured by dynamic light scattering, morphology was assessed by SEM, cytotoxicity by MTT method and mucoadhesive properties by mucin association.

In all cases, freeze-drying prior to nebulization did not affect EE%, NE or NEED%. In CHT, MPs RIF encapsulation efficiency (EE%) decreased with increasing CHT concentration (viscosity) and CHT-MP NEED% was higher when the polymer was crosslinked by glutaraldehyde. PLGA MPs, exhibited both higher RIF EE% and also higher nebulization ability and NEED%, compared to CHT ones, but also higher cytotoxicity. However, when the two polymers were combined in the PLGA/CHT MPs, EE%, NE% and NEED% increased with increasing MP CHT-content. PLGA/CHT MPs with 0.50% or 0.75% CHT exhibited highest EE% for RIF and also best nebulization ability and stability, compared to all other MP formulations studied. Additionally they had good mucoadhesive properties and comparably low cytotoxicity.     

Behaviour of the thermospray nebulizer as a system for the introduction of organic solutions in flame atomic absorption spectrometry

The results obtained in the evaluation of the thermospray nebulizer for the introduction of organic solutions in atomic spectrometry are described. To this end, the influence of the nebulization variables (i.e., liquid flow, control temperature and inner diameter of the capillary) and of the nature of the solvent on the fraction of solvent vaporized, on the drop size distribution of the primary aerosol, on the rates of analyte and solvent transport to the atomization cell and on the analytical signal has been studied. Experimental fraction of solvent vaporized values obtained under different nebulization conditions are reported for the first time. The results show that the characteristics of the aerosol generated strongly depend on the nebulization variables since they determine the amount of energy available for surface generation. The median of the volume drop size distribution of the primary aerosol decreases when the control temperature or the liquid flow is increased or when the inner diameter of the capillary is decreased. As regards the physical properties of the solvent, the so-called expansion factor (i.e., the volume of vapour produced per unit volume of liquid solvent) is the most influential. Surface tension and viscosity are much less significant here than in ordinary pneumatic nebulization. The volatility of the solvent and the characteristics of the primary aerosol determine the solvent transport efficiency which reaches values close to 100% in many cases. The analytical signal is mainly determined by the analyte transport rate, although a severe negative effect appears which is related to the high solvent load to the flame. Due to this fact, the use of organic solvents instead of water in thermospray nebulization for Flame Atomic Absorption Spectrometry does not provide clear advantages, at least without desolvation. A new modified Nukiyama-Tanasawa equation has been presented and evaluated in order to predict the Sauter mean diameter of the thermal aerosols. The results show that, under the conditions tested, this equation can not be applied to predict the characteristics of the primary aerosols generated with this type of nebulizer.     

Hydraulic high-pressure nebulization sample introduction for direct analysis or on-line matrix separation and trace preconcentration in flame AAS

Summary Only by replacement of the pneumatic nebulization by the new hydraulic high-pressure nebulization (HHPN) in flame AAS 2 to 10 times higher power of detection (depending on the element) can be achieved for the direct trace determination in a saturated tungstate solution. HHP-nebulization leads in general to higher sensitivity and additionally to lower matrix interferences. The HHPN-sample introduction system offers also facilities for a quick on-line matrix separation/trace preconcentration. Detection limits of 0.1 to 1 g/g were achieved for a tungsten matrix (depending on the element).     

Uranium determination in process chemicals: on the way to sub-pg/g concentrations

The detection limit of ICP-MS is affected by the sensitivity, the height of the blank and its relative stability i.e. precision, the accuracy and additionally by a bias or systematical error. The improvement of a single factor will improve the efficiency of the whole analytical system. For the example of uranium determination in process chemicals such as concentrated HF and HNO₃ the improvement or deterioration of the factors given above is demonstrated. The applied methods are matrix removal by evaporation, highly efficient nebulization with a USN, isotope dilution and use of a double-focusing instrument (ICP-SFMS_LR). The increase or decrease of each factor is compared to conventional nebulization ICP-QMS. To take full advantage of each single method, they can be combined with each other. Possible drawbacks of a single method are compensated by another method. Detection limits for uranium in concentrated process chemicals in the sub-pg/g range can be achieved.     

Investigation of HfO(+) interference in the determination of platinum in a catalytic converter (cordierite) by inductively coupled plasma mass spectrometry

The determination of Pt in cordierite is subject to strong interference by spectral overlap from HfO(+) ions with all Pt isotopes. Two mathematical correction methods based on the HfO(+)Hf(+) ratio and a method for the chemical separation of Hf based on adsorption chromatography and isotope dilution were investigated to correct for this interference. Flow infection was used to prevent clogging of the cone orifice. To enhance the sensitivity and thus lower the detection limit, thermospray nebulization was used for sample introduction and the method was compared with pneumatic nebulization. In addition, the memory effects were evaulated for both systems. Analysis of artificial solutions (1 ng Pt ml(-1)) yielded results within 3% of the true value. Th Pt content (ca. 50 ng g(-1)) of a cordierite sample, previously exposed to exhaust gases, could be determined with precisions of about 10-25% and the results agreed with earlier determinations by other workers.     

Determination of impurities in titanium nitride by slurry introduction axial viewed inductively coupled plasma optical emission spectrometry

A method of slurry nebulization for inductively coupled plasma optical emission spectrometry (ICP-OES) applied to the analysis of titanium niride(TiN) was reported. The TiN slurry sample was prepared with adding dispersant polyacrylate amine or polyethylene imine for the stabilization and homogenization of suspension, and the amount of additives was optimized. A Babington type cross-flow nebulizer with V-groove was used for nebulization of the slurry for avoidance of blockage from the particles. The stability of slurry was characterized via zeta potential measurement, scanning electron microscope observation, particle size distrbution measurement and signal stability testing. For nm size TiN, calibration curves could be established by aqueous standards and the analytical results were in good accordance with the alkaline fusion method. For μm size TiN, a negative deviation was observed for most of elements and this deviation can be corrected by using Ti intrinsic internal standard method.     

Analytical applications of emulsions. determination of lead in lubricating oils by atomic absorption spectrometry

Lead used in lubricating oils (ca. 0.2%) is determined by direct nebulization of oil-water emulsions into the flame of an atomic absorption spectrometer. The method is as accurate and precise as a similar method involving mineralization of the oil, and has the advantage of simplicity, speed and the use of aqueous standards for calibration.     

氢化物发生-电感耦合等离子体原子发射光谱法同时测定锑锭中氢化物元素和非氢化物元素

运用改进的同心喇叭口双溶液管雾化器，采用连续氢化物发生法，在酸性介质中，对锑锭样品溶液既发生雾化作用，又对可形成氢化物的元素（Ａｓ、Ｓｅ、Ｐｂ）发生氢化作用，使它们的发射强度得到显著提高，而对非形成氢化物的元素（Ｆｅ、Ｃｕ）的发射强度基本不受影响，利用ＩＣＰ－ＡＥＳ同时测定锑锭中形成氢化物的元素和非形成氢化物的元素。对实际样品进行对比检测，结果令人满意。     

Micro liquid chromatography coupled with evaporative light scattering detector at ambient and high temperature: optimization of the nebulization cell geometry

The recent developments in liquid chromatography (LC) are mainly dedicated to both system miniaturization (micro-, capillary-, and nano-LC) and analysis time decrease (fast-, and ultra-fast-LC). For the latter, several strategies can be used, and high temperature liquid chromatography (HTLC) seems very promising and easy to implement, especially in miniaturized system. In LC, the evaporative light scattering detector (ELSD) is considered an attractive alternative to conventional detector such as UV-vis due to its versatility and quasi-universality. Therefore, the compatibility of ELSD with micro-LC and micro-HTLC was investigated for several pharmaceutical compounds of interest. The nebulization process appeared to be the most critical parameter for performing the coupling and maintaining an efficient separation. Therefore, appropriate modifications in the nebulization cell geometry were brought to make ELSD fully compatible with micro-LC. The impact of optimized nebulization cell on chromatographic performance was evaluated in terms of efficiency and sensitivity. Finally, highly efficient, sensitive and fast separations of pharmaceutical drugs were performed with both techniques and the customized nebulization cell design.     

A novel method to prepare microporous and nanofibrous hydrogel scaffolds as neural tissue engineering

A new method to prepare poly (vinyl alcohol) hydrogels by nebulization method.is introduced. A blend of Poly (vinyl alcohol) (PVA), sodium gum malate (SGM) and cellulose nanofibers (CNFs) originated from Catha Edulis was prepared and tested as neural tissue substitutes. Glutaraldehyde (GLA) was used as a crosslinker. Presence of SGM and CNFs in the formulation improved the nebulization process of PVA solution as well as mechanical properties of the fabricated hydrogels. The tensile strength of neat PVA films attains 46.7 MPa, while the tensile strength was 94.23 MPa for crosslinked-PVA. The tensile strength was found to increase with the increase in the CNFs content in the PVA compared with PVA/SGM. These soft tissues were characterized by using FTIR, SEM, and DSC. Scanning electron microscopy (SEM) results showed that PVA/SGM/CNFs blends has a diameter about 50 ± 8µm. The hydrogels were tested also for antimicrobial activities against pathogenic bacteria like Candida albicans (fungus), Bacillus subtilis (G + Ve), Staphylococcus aureus (G + Ve), Proteus vulgaris (G ? Ve) and Erwinia carotovora (G ? Ve). Favorable mechanical, thermal properties and biodegradation nature of the hydrogels, as well as antimicrobial property indicate that prepared hydrogels are suitable for tissue engineering applications.