Supercritical water syntheses of transition metal-doped CeO_2 nano-catalysts for selective catalytic reduction of NO by CO:An in situ diffuse reflectance Fourier transform infrared spectroscopy study

In the present study,we synthesized CeO2 catalysts doped with various transition metals(M=Co,Fe,or Cu)using a supercritical water hydrothermal route,which led to the incorporation of the metal ions in the CeO2 lattice,forming solid solutions.The catalysts were then used for the selective catalytic reduction(SCR)of NO by CO.The Cu‐doped catalyst exhibited the highest SCR activity;it had a T50(i.e.,50%NO conversion)of only 83°C and a T90(i.e.,90%NO conversion)of 126°C.Such an activity was also higher than in many state‐of‐the‐art catalysts.In situ diffuse reflectance Fourier transform infrared spectroscopy suggested that the MOx‐CeO2 catalysts(M=Co and Fe)mainly followed an Eley‐Rideal reaction mechanism for CO‐SCR.In contrast,a Langmuir‐Hinshelwood SCR reaction mechanism occurred in CuO‐CeO2 owing to the presence of Cu+species,which ensured effective adsorption of CO.This explains why CuO‐CeO2 exhibited the highest activity with regard to the SCR of NO by CO.

Evaluation of Fourier Transform Infrared Spectroscopy for Diagnosis of Peroxisomal Diseases with Abnormal Very-Long-Chain Fatty Acid Metabolism

Very long chain fatty acids (VLCFAs) are accumulated in cells and blood in patients with peroxisomal diseases, such as adrenoleukodystrophy (ALD) and Zellwger Syndrome (ZS). The purpose of this study is to investigate usefulness of Fourier transform infrared spectroscopy (FTIR) with attenuated total reflection (ATR) analysis method for clinical diagnosis of those diseases, thereby we measured the infrared spectra of the sera of patients and healthy controls. Correlation coefficients between 2nd derivative FTIR spectra of the serum samples and the VLCFA content ratio which is used as a clinical parameter to date were comprehensively calculated to investigate which wavenumber showed high correlation with the VLCFA ratio. Multiple regression analysis using the serum FTIR spectra showed that high correlations were observed with VLCFA ratios (C26:0/C22:0 ratio), and we could construct a suitable regression model (R2 = 0.97, p ﹣19). In addition, the model system using various VLCFAs in newborn bovine serum also showed that several FTIR peaks in 800 ~ 900 cm﹣1 region were found to have good correlation with VLCFA ratios. Our results support that FTIR analysis is useful for diagnosis of peroxisomal diseases.

Feasibility assessment of phenotyping cotton fiber maturity using infrared spectroscopy and algorithms for genotyping analyses

Background:Cotton fiber maturity is an important property that partially determines the processing and performance of cotton.Due to difficulties of obtaining fiber maturity values accurately from every plant of a genetic population,cotton geneticists often use micronaire(MIC) and/or lint percentage for classifying immature phenotypes from mature fiber phenotyp es although they are complex fiber traits.The recent development of an algorithm for determining cotton fiber maturity(MIR)from Fourier transform infrared(FT-IR)spectra explores a novel way to measure fiber maturity efficiently and accurately.However,the algorithm has not been tested with a genetic population consisting of a large number of progeny pla,nts.Results:The merits and limits of the MIC-or lint percentage-bas ed phenotyping method were demonstrated by comparing the observed phenotypes with the predicted phenotypes based on their DNA marker genotypes in a genetic population consisting of 708 F2 plants with various fiber maturity.The observed MIC-based fiber phenotypes matched to the predicted phenotypes better than the observed lint percenta ge-based fiber phenotypes.The lint percentage was obtained from each of F2 plants,whereas the MIC values were unable to be obtained from the entire population since certain F2 plants produced insufficient fiber mass for their measurements.To test the feasibiility of cotton fiber infrared maturity(MIR)as a viable phenotyping tool for genetic analyses,we me asured FT-IR spectra from the second population composed of 80 F2 plants with various fiber maturities,determined MIR values using the algorithms,and compared them with their genotypes in addition to other fiber phenotypes.The results showed that MIR values were successfully obtained from each of the F2 plants,and the observed MIR-based phenotypes fit well to the predicted phenotypes based on their DNA marker genotypes as well as the observed phenotypes based on a combination of MIC and lint percentage.Conclusions:The M,R value obtained from FT-IR spectra of cotton fibers is able to accurately assess fiber maturity of all plants of a population in a quantitative way.The technique provides an option for cotton geneticists to determine fiber maturity rapidly and efficiently.

Process Characterization of the Transesterification of Rapeseed Oil to Biodiesel Using Design of Experiments and Infrared Spectroscopy

For optimization of production processes and product quality,often knowledge of the factors influencing the process outcome is compulsory.Thus,process analytical technology(PAT)that allows deeper insight into the process and results in a mathematical description of the process behavior as a simple function based on the most important process factors can help to achieve higher production efficiency and quality.The present study aims at characterizing a well-known industrial process,the transesterification reaction of rapeseed oil with methanol to produce fatty acid methyl esters(FAME)for usage as biodiesel in a continuous micro reactor set-up.To this end,a design of experiment approach is applied,where the effects of two process factors,the molar ratio and the total flow rate of the reactants,are investigated.The optimized process target response is the FAME mass fraction in the purified nonpolar phase of the product as a measure of reaction yield.The quantification is performed using attenuated total reflection infrared spectroscopy in combination with partial least squares regression.The data retrieved during the conduction of the DoE experimental plan were used for statistical analysis.A non-linear model indicating a synergistic interaction between the studied factors describes the reactor behavior with a high coefficient of determination(R^(2))of 0.9608.Thus,we applied a PAT approach to generate further insight into this established industrial process.

Chemometric Feature Selection and Classification of <i>Ganoderma lucidum</i>Spores and Fruiting Body Using ATR-FTIR Spectroscopy

Ganoderma lucidum(G. lucidum) spores as a valuable Chinese herbal medicine have vast marketable prospect for its bioactivities and medicinal efficacy. This study aims at the development of an effective and simple analytical method to distinguish G. lucidum spores from its fruiting body, which is of essential importance for the quality control and fast discrimination of raw materials of Chinese herbal medicine. Attenuated total reflection Fourier transform infrared (ATR-FTIR) spectroscopy combined with the appropriate chemometric methods including penalized discriminant analysis, principal component discriminant analysis and partial least squares discriminant analysis has been proven to be a rapid and powerful tool for discrimination of G. lucidum spores and its fruiting body with classification accuracy of 99%. The model leads to a well-performed selection of informative spectral absorption bands which improve the classification accuracy, reduce the model complexity and enhance the quantitative interpretations of the chemical constituents of G. lucidum spores regarding its anticancer effects.

Quantification of TOC and TN in reservoir sediments using Fourier transform infrared spectroscopy

This study aims to quantitatively assess the total organic carbon(TOC)and total nitrogen(TN)content of reservoir sediments in southwest China using Fourier transform infrared spectroscopy(FTIRS).FTIRS measurements were performed on 187 sediment samples from four reservoirs to develop calibration models that relate FTIR spectral information with conventional property concentrations using partial least squares regression(PLSR).Robust calibration models were established for TOC and TN content.The external validation of these models yielded a significant correlation between FTIR-inferred and conventionally measured concentrations of R^(2)=0.88 for TOC,R^(2)=0.90 for TN.This method can be performed with a small sample size and is non-destructive throughout the simple measurement process.The TOC and TN content in the sediment can be determined with high effectiveness without being overly expensive,making it an advantageous method when measuring a large number of samples.

Deliquescence and Efflorescence Processes of Aerosol Particles Studied by in situ FTIR and Raman Spectroscopy

Deliquescence and efflorescence are the two most important physicochemical processes of aerosol particles. In deliquescence and efflorescence cycles of aerosol particles, many fundamental problems need to be investigated in detail on the molecular level, including ion and molecule interactions in supersaturated aerosols, metastable solid phases that may be formed, and microscopic structures and deliquescence mechanisms of aerosol particles. This paper presents a summary of the progress made in recent investigations of deliquescence and efflorescence processes of aerosol particles by four common spectral techniques, which are known as Raman/electrodynamic balance, Fourier transform infrared/aerosol flow tube, Fourier transform infrared/attenuated total reftection, and confocal Raman on a quartz substrate.

应用衰减全反射红外光谱无损鉴别中国传统手工纸的方法研究

纤维种类鉴别是古代纸张保护的重要基础工作。探究中国传统手工纸的无损纤维鉴别的方法对中国古籍、档案及纸质文物的研究和保护具有重要意义。该研究应用衰减全反射傅里叶变换红外光谱(ATRFTIR)对已知纤维成分的17类64种中国传统手工纸标准样品进行了无损分析,参考纤维素和木质素的红外峰位及部分纸样的X射线衍射(XRD)分析结果确认纸样中的所有红外谱峰归属;并采用分波段比较分析的方法对相似度极高的谱图进行比对分析,分别总结各类纸张在4000~1800、1800~1500、1500~1200和1200~600cm^(-1)四个波段的谱图特征;同时对4cm^(-1)精度的谱图进行二阶导数处理,分别总结各类纸张在1500~1200和1200~900cm^(-1)两个波段的二阶导数谱图特征;最后通过红外结晶指数及其他峰高和峰面积比值计算结果实现对纸类更细致的区分。应用上述方法对16个盲测样品进行了有效性测试,红外分析结果与显微纤维鉴别结果一致,初步证明了该方法在中国传统手工纸无损纤维鉴别上的可行性和有效性。实验结果表明,应用ATR-FTIR无损分析法可对麻、桑构皮、檀皮、瑞香皮和竹几大类原料的传统手工纸纤维类型作出快速而准确的鉴别,对于混料的宣纸也同样适用;但对于显微分析也难以鉴别的亲缘关系较近的植物原料如桑、构皮之间的精细鉴别仍有一定局限性。

原位衰减全反射表面增强红外光谱示踪单原子催化二氧化碳电还原反应中间体的研究进展

电催化二氧化碳还原反应(CO_(2)RR)涉及多个电子和质子转移,动态演变过程复杂.具有结构简单性和均匀性的单原子催化剂(SACs)是研究上述复杂过程的理想模型催化剂,有利于理解催化构效关系.原位衰减全反射表面增强红外光谱技术为识别单原子催化CO_(2)RR的动态演变过程提供了有利方法.本文总结了原位红外光谱在电催化CO_(2)RR研究中的应用:首先,简要介绍了电化学衰减全反射表面增强红外光谱的表面增强机制;详细探讨了原位衰减全反射表面增强红外光谱技术在研究原子级金属催化剂催化CO_(2)/CORR反应动态演变过程的关键作用;简述了原位红外谱图确定界面水的相关信息以及电极局部pH值的定量方法.原位电化学红外光谱技术加深了对CO_(2)RR反应机制的理解,揭示了催化剂结构、电解质种类、分子吸附方式等对反应活性和选择性的调控规律.尽管研究已取得较大进展,但由于电催化CO_(2)RR的复杂性,学者对该反应的认知仍不够全面和深入,面临的机遇和挑战如下:(1)精准辨识CO_(2)RR关键中间体/生成物.特别是当中间体/生成物的特征峰与其他峰重叠时,精准识别相关特征峰将极具挑战.一方面,需进一步提高原位光谱技术分辨率;另一方面,近年来深度学习算法在光谱分析领域的应用为中间体/生成物混合特征峰的精准识别提供了有效方案,此类算法能建立变量之间的关系,实现光谱中特征信息的智能、精准提取;(2)深入解析CO_(2)RR机理和复杂的反应路径.目前,研究者尚难以通过直接实验手段明确CO_(2)RR路径.原位电化学红外光谱技术结合密度泛函理论(DFT)是明确CO_(2)RR中间体和反应途径的可行方案,能够进一步指导反应条件优化和催化剂结构设计;(3)建立工况下的原位CO_(2)RR机理研究方案.膜电极组件(MEA)电解槽通过使用膜直接连接阴极气体扩散电极和阳极,有效解决了H型反应器的局限性,具有工业应用前景.然而,基于MEA的工况条件CO_(2)RR机制研究鲜有报道.因此,需要开发工况条件下的原位电化学光谱技术,以探究三相界面分子尺度关键中间体/生成物动态演变,并建立工况条件的CO_(2)RR催化构效关系,这将有助于提高工况下的选择性、转化效率,以及实现更高价值的多碳产品的规模生产,并进一步指导高效反应器设计.综上,本文详细综述了原位红外光谱在电化学CO_(2)RR研究中的应用,并对电催化CO_(2)RR目前遇到的问题提出了解决方案,希望对广大科研工作者利用原位红外光谱进一步深入研究电催化CO_(2)RR提供参考和借鉴.

红外光谱快速检测生物降解聚酯的研究

首先,利用衰减全反射红外光谱法采集常见生物降解塑料的红外光谱图,标记其特征官能团。随后,通过熔融共混和溶液共混得到了生物降解塑料和非降解塑料的共混物。结果表明,基于红外光谱的快速检测方法在生物降解塑料的分析中具有高效性和准确性,为推动生物降解塑料的发展以及对塑料污染的治理提供了有益的参考。

聚光太阳能驱动二氧化碳甲烷化实验研究

针对聚光光热驱动CO_(2)甲烷化反应过程中聚光的作用机制尚不清晰的问题,以具有优异反应活性及光热转换特性的Ni/Al_(2)O_(3)催化剂为研究对象,开展了聚光光热驱动和热驱动下的CO_(2)甲烷化实验及机理研究。通过表观活化能测试、温度梯度实验及时间分辨的原位漫反射红外光谱实验,探究了聚光在反应过程中的作用机制,揭示了光热驱动CO_(2)甲烷化的反应机理。结果表明,与纯热驱动过程相比,光热驱动在相同温度下表现出更佳的催化性能。光热驱动下w(Ni)为15%的Ni/Al_(2)O_(3)催化剂在350℃下可达到86.8%的CO_(2)转化率,达到峰值转化率所需的温度比纯热驱动过程降低了25℃。此外,光热较热驱动过程的表观活化能降低了25%,且光致温度梯度进一步促进了CO_(2)的转化。时间分辨的原位漫反射红外光谱实验结果表明,聚光改善了CO_(2)在催化剂表面的吸附,促进了关键中间体的转变,增强了CO*生成CH4的反应路径,从微观动力学上促进了CO_(2)的转化。该研究为认识聚光太阳能驱动CO_(2)甲烷化过程中聚光的作用机制提供了新的思路。

铁钾基复合氧化物上CO_(2)氧化乙苯脱氢制苯乙烯的原位DRIFTS研究

采用湿法造粒法制备了Fe-K,Fe-K-Ce,Fe-K-Ce-Mo复合氧化物催化剂,利用原位漫反射傅里叶变换红外光谱技术考察了催化剂在CO_(2)氧化乙苯脱氢制苯乙烯反应中的反应机理、促进作用和构效关系。实验结果表明,在CO_(2)氧化乙苯脱氢反应中,Ce的加入提高了催化剂的活性,Mo改性提升了苯乙烯的选择性。催化剂经改性后促进了碳酸盐物种的形成,Fe-K-Ce催化剂形成了更多桥联碳酸盐物种,Fe-K-Ce-Mo催化剂增加了双齿碳酸盐物种。这些碳酸盐物种在高温下分解进行CO_(2)脱附并释放活性位点,乙苯会吸附在这些位点上脱氢生成苯乙烯和H2,H2与CO_(2)进行逆水煤气变换反应。此外,引入CO_(2)后缩短了催化剂的活化诱导期,提高了苯乙烯产量。

傅里叶变换衰减全反射红外光谱检测血液样本在疾病筛查及诊断的应用进展

傅里叶变换衰减全反射红外(attenuated total reflection Fourier transform infrared,ATR-FTIR)光谱技术以其快速、准确、无创的特点,在生物医学领域尤其是临床血液学检验中显示出巨大潜力。该技术记录样本中分子的振动光谱,提供生物样品内核酸、蛋白质和脂质的化学结构信息,可用于疾病筛查和诊断。ATR-FTIR光谱技术在地中海贫血、艾滋病毒感染、乳腺癌、卵巢癌和脑瘤等疾病中的研究现状和发展情况,提示该技术结合化学计量学方法可实现疾病的快速筛查、诊断与鉴别诊断。ATR-FTIR光谱技术与偏最小二乘法回归模型相结合,以定量法分析人外周血样品中平均红细胞血红蛋白含量、平均红细胞体积和血红蛋白等地中海贫血筛查指标,筛查地中海贫血的灵敏度、特异度分别达到100.0%和95.3%。采用ATR-FTIR光谱技术,基于遗传算法的线性判别分析法,分析血液样本红外图谱中1653 cm-1(酰胺Ⅰ带)、1558 cm-1(酰胺Ⅱ带)、1506 cm-1(环基)和901 cm-1(磷酸二酯伸缩带)处的特征峰,对人类免疫缺陷病毒(human immunodeficiency virus,HIV)感染孕妇血液样本的辨别准确率为89%,灵敏度、特异度分别为83%、92%。采用主成分回归(principal component regression)法对乳腺患者血液ATRFTIR光谱进行识别,其灵敏度与特异度高达92.3%与87.1%此外,ATR-FTIR光谱技术还可应用于生物医学领域的其他方面,如细胞和组织学样本的检测、疾病严重程度的分类等。ATR-FTIR光谱技术展现出广阔的应用前景,但仍面临环境干扰、样本污染等挑战。未来,随着ATR-FTIR光谱技术的优化、发展,其有望在更多疾病的临床血液学检验中发挥重要作用。

比较教学法在红外光谱分析实验教学中的探索与应用

紧密结合实验特性和教学目的,提出将比较教学法应用于实验课堂,深入探讨了其在红外光谱分析实验教学中的应用与实践。通过实施这种教学方法,学生不仅能深入理解透射法与衰减全反射红外光谱分析法的异同点,而且能掌握这两种方法的实际应用技巧。实践表明,比较学习法有效推动了高分子材料分析实验的教学改革和质量的提升,有助于强化学生实践操作能力,激发他们的科研兴趣,为培养未来的科研人才奠定坚实基础。

傅里叶变换衰减全反射红外光谱法的应用与进展

随着傅里叶变换红外光谱仪的应用及化学计量学的发展 ,傅里叶变换衰减全反射红外光谱法(ATR FTIR)成为用传统透过法制样效果不理想 (或制样复杂 )的样品及表层结构分析的有利工具和手段。ATR FTIR技术已应用到纺织、质检、公安等各个领域。目前 ,人们正在针对ATR FTIR的特性 ,开展应用研究。为此 ,文章主要介绍了国内外应用ATR FTIR技术进行深度剖析的研究 ,对材料表面的定性分析 ,组分的定量分析 ,光学纤维与ATR附件的联用技术 ,以及在其他领域 (如运用ATR FTIR技术考察中空纤维的结构及取向变化 ,研究皮肤促进剂的作用机理 )

傅立叶变换拉曼光谱和红外光谱鉴别塑料

用傅立叶变换拉曼光谱、衰减全反射红外光谱和近红外光谱结合OPUS/Ident软件对添加不同填料、不同助剂的塑料进行鉴别分类。结果表明:分子光谱结合化学计量学鉴别塑料是一种快速可靠的方法。其中拉曼光谱和衰减全反射红外光谱能够直接区分样品,而近红外光谱非常类似,不能直接区分。但是用OPUS/Ident软件中的W ard算法处理这3种光谱后,得到的树形图能够将样品准确分类。

氧化乐果的振动光谱及其表面增强拉曼散射研究

采用ATR-FTIR、FT-拉曼表征了氧化乐果在酸、碱、中性条件下的振动光谱,获得了氧化乐果分子较为全面的结构振动信息;以金/银核-壳粒子为基底,获得了不同浓度及其酸碱条件下氧化乐果的表面增强拉曼散射(SERS)光谱,考察了其分子在该基底表面的吸附状态及其酸碱影响,推测了氧化乐果的SERS机理;结果表明:νas(NH),νas(CH3),AmideⅠ,ν(POC),ν(PO),ν(C-S)为氧化乐果分子特征振动;中性条件下,氧化乐果浓度低于2.0×10-2mol/L已无明显SERS,酸、碱条件下,在2.0×10-10mol/L氧化乐果分子与基底的作用仍显著,尤其酸性的SERS更强;氧化乐果主要以磷酸酯结构与基底表面作用,探讨了酸碱条件下的不同水解历程对该作用的影响,为研究有机磷农药的形态变化提供了参考。

中红外、近红外和拉曼光谱法测定商品农药制剂中氰戊菊酯和马拉硫磷的含量

利用近红外、中红外和拉曼光谱法定量分析了商品农药制剂中有效成分氰戊菊酯和马拉硫磷的含量。采用偏最小二乘法(Partial least squares,PLS)建立氰戊菊酯和马拉硫磷的定量模型并进行了优化,用独立检验集对模型适应性进行评价。近红外和中红外法测定氰戊菊酯、马拉硫磷定量模型的相关系数分别是0.9981,0.9994和0.9946,0.9998,外部验证集标准差分别是0.082,0.081和0.092,0.075,两种方法的定量效果接近;拉曼法氰戊菊酯和马拉硫磷定量模型的相关系数分别为0.9872和0.9993,外部验证集标准差分别为0.254和0.317,预测精度不及近红外和中红外法高。MIR-ATR,NIR和Raman 3种方法均能满足现场检测农药质量的需要。

N-三甲基壳聚糖透皮吸收促进作用的初步研究

目的考察N-三甲基壳聚糖(-Ntrimethyl chitosan,TMC)作为透皮吸收促进剂的作用,并对其作用机制做初步研究。方法用壳聚糖及碘甲烷为主要原料,合成季铵化程度为60%的TMC,即TMC60,通过1H-NMR确定其季铵化程度。应用衰减全反射傅立叶红外光谱(ATR-FTIR)探讨TMC60对角质层角蛋白的作用。以月桂氮酮为阳性对照,睾酮为模型药物,考察TMC60对离体皮肤的透皮作用。结果经1H-NMR确定合成得到的TMC60季铵化程度为67.2%。鼠角质层经TMC60处理后,角蛋白的酰胺吸收峰Ⅱ带的峰位从1 538.7 cm-1向低波数位移到1 536.8 cm-1。结合用去卷积方法对酰胺吸收峰Ⅱ进行处理,结果表明,TMC60可使部分角蛋白从α-螺旋型结构向β-折叠型结构和无规则卷曲型结构转变。体外透皮实验中,TMC60组的累积透过量、稳态渗透速率显著大于空白组和月桂氮酮组(P均小于0.05)。结论TMC60有较好的透皮吸收作用,其作用机制与影响皮肤角质层角蛋白结构有关。

ATR-FTIR分析冻结—解冻后的牛肉蛋白二级结构变化

研究了牛肉蛋白质二级结构稳定性在-18,-23及-38℃不同温度下的变化情况,明确了肉品工业中不同冷冻温度对肉品品质的作用机制。利用了傅里叶变换衰减全反射红外光谱（attenuated total reflectance Fourier transfer infrared spectroscopy,ATR-FTIR）技术、自动去卷积以及曲线拟合等计算方法,分析了-18,-23及-38℃三个温度下,牛肉肌原纤维蛋白（myofibrillar protein,MP）在冻结—解冻过程中的红外光谱图变化及蛋白质二级结构变性程度。ATR-FTIR结果显示,冻结—解冻过程中牛肉MP红外光谱图峰高、峰面积发生变化,且峰波数发生红移或者蓝移;冻结—解冻后牛肉MP红外光谱图中3 500~3 300cm-1波段的吸收峰强度减弱甚至消失,说明解冻后牛肉MP中的结合水中O—H基团与氨基酸CO基团形成的分子内和分子间氢键断裂;冻结会影响牛肉MP二级结构的稳定性,导致牛肉蛋白质二级结构发生变化,其中除了无规则卷曲比例上升以外,α-螺旋、β-折叠、β-转角含量均下降,造成有序结构向无序结构转变;解冻后,冻结温度为-38℃的处理组牛肉β-折叠增加量大于-23和-18℃处理组,-38℃冻结牛肉MP二级结构的稳定性最好,解冻后蛋白质复性也最好。即蛋白质冷冻变性程度随着冻结温度的降低而减轻,蛋白质二级结构特征保持也越好。该试验研究基于肉品工业生产实际,研究结果从微观层面揭示了冻结温度对牛肉蛋白质变性的影响规律及可能的机制,为冷冻肉冻藏保鲜工艺制定提供了参考。