在线分析技术在中国的发展

在线分析技术由于其具有实时、准确、高效的特点,近年来得到快速发展,已被广泛应用于环境、矿业、冶金、生物医药和食品等领域。重点介绍了国内X射线荧光光谱、激光诱导击穿光谱、瞬发γ中子活化、双能量γ射线透射、原子荧光光谱、近红外光谱和质谱法等在线分析技术近十年来的发展和应用情况,并对在线分析技术未来发展趋势进行了展望。     

过程分析技术在结晶过程中的应用研究进展

结晶是一种传统的分离与纯化技术,目前在高纯度化合物的分离纯化过程中发挥着至关重要的作用,广泛应用于化工、制药等领域。基于质量源于设计理念的过程分析技术为结晶过程的监测、反馈及其控制提供了高效且可靠的支持。该文对衰减全反射傅里叶变换红外光谱技术、拉曼光谱技术、近红外光谱技术、聚光束反射测量技术等多种过程分析技术在结晶过程中的应用进行综述,系统总结上述技术的现状、优缺点,并对未来发展趋势进行展望,以期为结晶工艺的在线监控提供有效参考。     

我国在线分析检测技术取得阶段性成果

为增强我国仪器仪表行业的自主研发能力,实现高端在线分析仪器仪表的国产化,全面振兴我国仪器仪表行业,中国石油天然气股份有限公司兰州石化分公司联合浙江大学、东北大学等优势单位,在863计划先进制造技术领域重点项目的支持下,以石化、钢铁等典型流程工业的需求为突破口,开展了基于光谱、色谱等先进检测技术的在线分析装置的开发和研制,经过课题组的联合攻关,现已取得了阶段性成果。     

全自动在线前处理技术在法庭科学毒物分析中的应用

近年来全自动在线前处理技术在法庭科学毒物分析领域得到了快速的发展和应用。在线前处理技术相较于传统提取技术,具有高效便捷、高稳定性、安全性、高灵敏度等优势,与日益增长的毒物检验分析需求完美契合。对多种在线前处理技术在法庭科学毒物检验中的应用、难点、解决措施以及发展前景和方向进行了综述,旨在为毒物检验中自动化技术的发展提供参考。     

X-射线荧光光谱分析技术的发展

归纳了X-射线荧光光谱分析技术发展的进程。从现代控制技术的改善、仪器检测性能的提高、元素检测范围的扩大等8方面阐述了波长色散X-射线荧光光谱技术的进展,还就能量色散X-射线荧光光谱仪的X射线管和探测器技术的快速发展及近10年来我国在X-射线荧光光谱分析方法方面的论文发表情况进行了总结,对近年来X-射线荧光光谱仪的发展趋势———手持式、偏振、微束分析等进行了评述,并对其技术的发展方向进行了展望。     

近五年我国近红外光谱分析技术研究与应用进展

评述了近五年来(2014～2018)我国近红外光谱分析技术的研究与应用进展,内容涉及方法研究、软硬件研发、应用特点和趋势等方面,并对今后我国近红外光谱技术的发展方向进行了展望。引用文献97篇。     

近红外光谱分析技术的最新进展与展望

在过去的几十年,近红外光谱是发展最为迅速的分析技术之一。振动光谱基础理论、光谱仪器硬件和化学计量学是现代近红外光谱分析技术的3大支柱,近些年,近红外光谱技术在这3个方面均取得了显著进展。该文结合上述3个方面的应用研究情况,对近红外光谱分析技术的最新进展进行了综述,并对未来发展趋势进行了展望。     

利用近红外光谱技术在线检测中药质量

传统的分析技术一般采用离线分析的手段，通常需要对待分析样品进行相应的预处理，存在分析结果滞后的缺陷。近红外技术可以克服这一缺点，使实验室和工厂的产品分析实现在线化，可以在几秒钟内得到待测参数。与反馈控制技术联用后，实现生产过程的在线控制。近红外光谱能够连续测定多个参数，实现绿色分析。     

X射线荧光光谱分析

本文评述了我国在2002年7月～2004年6月间X射线荧光光谱, 包括粒子激发的X射线光谱的发展和应用, 内容包括仪器的研制、维护和维修、样品制备技术、 X射线荧光光谱基础研究、谱处理、分析方法研究和应用.     

水溶液体系中氧化石墨烯的γ射线辐射还原

石墨烯是一种碳原子以二维蜂窝状晶格结构构成的单片层材料,由于其具有优异的电传导性、力学性能和热传导性近年来受到广泛关注.本文采用γ射线辐射技术分别处理水溶液和对苯二胺(PPD)水溶液中的氧化石墨烯(GO),得到辐照还原氧化石墨烯(RGO)和胺基化修饰的还原氧化石墨烯(RGON).通过傅里叶变换红外(FTIR)光谱、X射线光电子能谱(XPS)、拉曼(Raman)光谱、X射线衍射(XRD)和热失重分析(TGA)等表征分析产物的化学结构和元素组成;通过四探针测试仪和接触角测量仪研究产物的导电性能和亲水性.实验结果表明,在水溶液及PPD水溶液中γ射线辐射均可高效还原GO,还原后得到的RGO和RGON电导率均显著增大.PPD的胺基在辐射还原过程中还可以修饰到石墨烯的表面,因此RGON的亲水性比RGO好,但胺基的存在会干扰石墨烯表面π电子的传导,导致其电导率下降.     

在线采样技术在中国的发展

在线采样技术能实时采样,满足在线监测的采样要求。按照采样进样介质的不同分为气体、液体、固体三类。对气体中有毒气体、大气颗粒物、VOCs,液体中水样、原油,固体中煤的机械化采样技术进行了概述,旨在帮助了解在线采样技术在国内矿业、环境行业的发展和应用。随着5G时代的到来,在线采样技术一定会发挥越来越重要的作用。     

以在线开放课程为核心进行一流课程的建设与实践

The development and integration of information technology with higher education facilitate the construction of the first-class online course, which has been a key objective for undergraduate education reform. Based on the student-centered idea, it is a valuable exploration and practice to integrate the online course with traditional teaching, and make efforts on innovative digitized teaching mode by taking the advantage of information technology.     

Recent advances of online coupling of sample preparation techniques with ultra high performance liquid chromatography and supercritical fluid chromatography

Ultra high performance liquid chromatography and supercritical fluid chromatography techniques are favored because of their high efficiency and fast analysis speed. Although many sample preparation techniques have been coupled with common liquid chromatography online, the online coupling of sample preparation with the two popular chromatography techniques have gained increasing attention owing to the increasing requirements of efficiency and sensitivity. In this review, we have discussed and summarized the recent advances of the online coupling of sample preparation with ultra high performance liquid chromatography and supercritical fluid chromatography techniques. The main sample preparation techniques that have been coupled with ultra high performance liquid chromatography online are solid‐phase extraction and in‐tube solid‐phase microextraction, while solid‐phase extraction and supercritical fluid extraction are the main techniques that have been coupled with supercritical fluid chromatography online. Especially, the strategies for online coupling of sample preparation with chromatography techniques were summarized. Typical applications and growing trends of the online coupling techniques were also discussed in detail. With the increasing demands of improving the efficiency, throughput, and analytical capability toward complex samples of the analysis methods, online coupling of sample preparation with chromatography techniques will acquire further development.     

The design of a multi-dimensional LC-SPE-NMR system (LC(2)-SPE-NMR) for complex mixture analysis

In this communication, we describe the design of an online multi-chromatographic approach to the routine NMR analyses of low-level components ( approximately 0.1%) in complex mixtures. The technique, termed LC(2)-SPE-NMR, optimally combines multi-dimensional liquid chromatography with SPE technology for isolating, enriching and delivering trace analytes to the NMR probe. The fully automated LC(2)-SPE-NMR system allows for maximal loading capacity (in the first, preparative LC dimension), close to optimal peak resolution (in the second, analytical LC dimension) and enhanced sample concentration (through SPE). Using this system, it is feasible to conveniently conduct a wide range of NMR experiments on, for example, drug impurities at the low microgram per milliliter level, even for components poorly resolved in the first dimension. Such a sensitivity gain significantly elevates the analytical power of online NMR technology in terms of the level at which substances of pharmaceutical significance can be structurally characterized.     

基于EDXRF的铁精矿品位、水分在线分析系统的应用

采用基于能量色散X射线荧光（EDXRF）的铁精矿品位、水分在线分析系统在攀钢矿业公司选矿厂对Fe、H2O进行实时分析。结果表明，该分析系统满足对铁精矿中Fe及H2O的分析要求。     

Application of Covalent Organic Porous Polymers-Functionalized Basalt Fibers for in-Tube Solid-Phase Microextraction

To establish an online analytical method towards estrogenic pollutants, a covalent organic porous polymer (COP) was in-situ synthesized on the surface of basalt fibers (BFs) for in-tube solid-phase microextraction (IT-SPME). The extraction tube, obtained via placing the modified BFs into a polyetheretherketone tube, was combined with high-performance liquid chromatography (HPLC) to achieve online IT-SPME-HPLC analysis. The important parameters, including sampling volume, sampling rate, organic solvent content and desorption time, were carefully investigated. Under the optimized conditions, the online analytical method was established for five estrogenic targets, with low limits of detection (0.001–0.005 μg/L), high enrichment factors (1800–2493), wide linear ranges (0.003–20, 0.015–20 μg/L) and satisfactory repeatability. It was successfully applied to detect five estrogens in a wastewater sample and a water sample in a polycarbonate cup. The BFs functionalized with COPs displayed excellent extraction effect for estrogenic pollutants, furthermore it has great potential in sample preparation or other fields.     

Recent developments in neutron-induced gamma activation for on-line multielemental analysis in industry

Neutron-induced gamma activation is an important method for on-line multi-elemental analysis. It has a long history of use in industrial applications, in particular the minerals and energy sectors, although it has also been applied in other areas, including medicine and security. This paper reviews significant developments and trends of the last decade in technology, in particular in the areas of sources, detectors and analytical methods. Changes in implementation such as the increasing use of neutron inelastic scattering reactions and the development of on-belt designs are also discussed. This revised version was published online in July 2006 with corrections to the Cover Date.     

Ionization suppression effects with condensed phase membrane introduction mass spectrometry: methods to increase the linear dynamic range and sensitivity

Condensed phase membrane introduction mass spectrometry (CP‐MIMS) is an online analytical method that allows for the direct, trace level measurement of a wide range of analytes in complex samples. The technique employs a semi‐permeable membrane that transfers analytes from a sample into a flowing acceptor solvent, which is directly infused to an atmospheric pressure ionization source, such as electrospray or atmospheric pressure chemical ionization. While CP‐MIMS and variants of the technique have been in the literature for nearly a decade, much of the work has focused on instrument development. Few studies have thoroughly addressed quantitative methods related to detection limits, ionization suppression, or linear dynamic range. We examine ionization suppression in the direct rapid quantitation of analytes by CP‐MIMS and introduce several analytical strategies to mitigate these effects, including the novel implementation of a continuously infused internal standard in the acceptor phase solvent, and modulation of acceptor phase flow rate. Several representative analytes were used to evaluate this approach with spiked, complex sample matrices, including primary wastewater effluent and artificial urine. Also reported are improved measured detection limits in the low part‐per‐trillion range, using a ‘stopped‐flow’ acceptor mode. Copyright © 2015 John Wiley & Sons, Ltd.     

Upsurgence of smartphone as an economical,portable, and consumer-friendly analytical device/interface platform for digital sensing of hazardous environmental ions

Ions play a pivotal role in the biological regulatory processes and catalyzing enzymatic reactions; however, increased levels in the human body leads to many health risks or toxicity. To circumvent this, periodic and precise monitoring of significant ions in environmental, biological, chemical, and food samples are necessary, which need to be mapped/monitored continuously. This has prompted researchers to develop cost-effective, handy, and rapid techniques which can be fruitful for even untrained personnel by obviating manual user instructions, lengthy sample preparation steps, and costly instruments. The exploitation of user-friendly behavior, affordable price, and ubiquitous usage of smartphones has led to the development of a plethora of smartphone-based methodologies whereby they can serve as devices, detectors, or interfaces. Their in-built high-resolution rear camera, ambient light sensors, wireless connectivity, internal storage, and global positioning systems minimize the cost and simplify the fabrication of developing point-of-care testing devices, making them operable in challenging conditions with limited resources. Coupling smartphones with iCloud technology allows the synchronous storing and online transmitting of databases to consumers even in remote areas, which helps in real-time monitoring and continuously scrutinizing contaminants in the environment. This is not an exhaustive review but enumerates the progress made in the development of smartphone-based analytical aids by incorporating advanced device fabrication strategies and hassle-free analytical protocols during the past years (2014–2021). An account of key features like sensing performance of the developed methods in terms of selectivity, sensitivity, and detection limits and their limitations for recognition of environmental and biologically eminent ions is also discussed. Lastly, this review paves the way for the development of advanced innovative analytical techniques employing smartphone technology for the foreseeable future to ensure point-of-care human safety.