The Study of Using Near-infrared Diffuse Reflectance Spectroscopy Rapid Identify Wheat Drought Resistance-Ⅱ

[Objective] The aim was to build an evaluation method rapidly identifying wheat drought tolerance with near infrared diffuse reflectance spectroscopy. [Method] In the research, 36 wheat varieties in 2007-2009 were chosen and drought-tolerance degrees of wheat were graded and identified according to Winter-wheat Drought Tol- erance Evaluation Technical Standards （GB/T 21127-2007）, and harvest wheat grains underwent spectrum collection, with a full-spectrum analyzer, to establish a database. [Result] Based on qualitative analysis and full-spectrum correlation research, the coef- ficient of determination （RSQ） and cross-validation coefficient of determination （1-VR） were concluded at 0.697 5 and 0.600 2, showing near-infrared diffuse reflectance spectroscopy is of significant differences among wheat varieties and of significant or extremely significant correlation with drought-tolerance indices. [Conclusion] The re- search indicates that to evaluate drought-tolerance of wheat with near-infrared diffuse reflectance spectroscopy is a rapid and feasible way, which is simple, convenient without damages on grains, and of practical values for construction wheat drought-tol- erance evaluation index system and identification of breeding materials.

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.

Rapid, Non-Destructive, Textile Classification Using SIMCA on Diffuse Near-Infrared Reflectance Spectra

Soft independent modeling of class analogy (SIMCA) was successful in classifying a large library of 758 commercially available, non-blended samples of acetate, cotton, polyester, rayon, silk and wool 89% - 98% of the time at the 95% confidence level (p = 0.05 significance level). In the present study, cotton and silk had a 62% and 24% chance, respectively, of being classified with their own group and also with rayon. SIMCA correctly identified a counterfeit “silk” sample as polyester. When coupled with diffuse NIR reflectance spectroscopy and a large sample library, SIMCA shows considerable promise as a quick, non-destructive, multivariate method for fiber identification. A major advantage is simplicity. No sample pretreatment of any kind was required, and no adjust-ments were made for fiber origin, manufacturing process residues, topical finishes, weave pattern, or dye content. Increasing the sample library should make the models more robust and improve identification rates over those reported in this paper.

Determination of Active Components in a Natural Herb with Near Infrared Spectroscopy Based on Artificial Neural Networks

The non-linear relationships between the contents of ginsenoside Rg 1, Rb 1, Rd and Panax notoginseng saponins(PNS) in Panax notoginseng root herb and the near infrared(NIR) diffuse reflectance spectra of the herb were established by means of artificial neural networks(ANNs). Four three-layered perception feed-forward networks were trained with an error back-propagation algorithm. The significant principal components of the NIR spectral data matrix were utilized as the input of the networks. The networks architecture and parameters were selected so as to offer less prediction errors. Relative prediction errors for Rg 1, Rb 1, Rd and PNS obtained with the optimum ANN models were 8.99%, 6.54%, 8.29%, and 5.17%, respectively, which were superior to those obtained with PLSR methods. It is verified that ANN is a suitable approach to model this complex non-linearity. The developed method is fast, non-destructive and accurate and it provides a new efficient approach for determining the active components in the complex system of natural herbs.

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.

Titanium dioxide as an adsorbent to enhance the detection ability of near-infrared diffuse reflectance spectroscopy

A method for quantitative determination of fish sperm deoxyribonucleic acid(fsDNA)was developed by using titanium dioxide(TiO2)as an adsorbent and near-infrared diffuse reflectance spectroscopy(NIRDRS).The selective enrichment of fsDNA was proved by comparing the adsorption efficiency of bovine serum albumin,tyrosine and tryptophan,and the low adsorption background of TiO2 was illustrated by comparing the spectra of four commonly-used inorganic adsorbents(alkaline aluminium oxide,neutral aluminium oxide,nano-hydroxyapatite and silica).The spectral feature of fsDNA can be clearly observed in the spectrum of the sample.Partial least squares(PLS)model was built for quantitative determination of fsDNA using 28 solutions,and 13 solutions with interferences were used for validation of the model.The results showed that the correlation coefficient(R)between the predicted and the reference concentration is 0.9727 and the recoveries of the validation samples are in the range of 98.2%-100.7%.

Determination of triglycerides in human serum by near-infrared diffuse reflectance spectroscopy using silver mirror as a substrate

Near infrared diffuse reflectance spectroscopy(NIRDRS) has gained wide attention due to its convenience for rapid quantitative analysis of complex samples. A method for rapid analysis of triglycerides in human serum using NIRDRS with silver mirror as the substrate is developed. Due to the even and high reflectance of the silver mirror, the spectral response is enhanced and the background interference is reduced.Furthermore, both linear and nonlinear modeling strategies were investigated adopting the partial least squares(PLS) and least squares support vector regression(LS-SVR), continuous wavelet transform(CWT)was used for spectral preprocessing, and variable selection was tried using Monte Carlo uninformative variable elimination(MC-UVE), randomization test(RT) and competitive adaptive reweighted sampling(CARS) for optimization the models. The results show that the determination coefficient(R) between the predicted and reference concentration is 0.9624 and the root mean squared error of prediction(RMSEP) is 0.21. The maximum deviation of the prediction results is as low as 0.473 mmol/L. The proposed method may provide an alternative method for routine analysis of serum triglycerides in clinical applications.

氢氧化钠分子结构原位漫反射一维及二维漫反射中红外光谱研究

通过原位一维漫反射中红外(MIR)光谱开展了氢氧化钠分子结构研究。实验发现,氢氧化钠分子结构主要红外吸收模式包括OH基团伸缩振动模式(νOH-NaOH-_(一维))和OH基团面内摇摆振动模式(ρOH-NaOH-_(一维))。进一步开展了氢氧化钠分子结构的原位二维漫反射MIR光谱研究。采用原位漫反射一维及二维漫反射MIR光谱开展氢氧化钠结构研究,对氯碱工业具有重要意义。

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。

天然粉红蓝宝石结构的漫反射中红外光谱研究

采用漫反射中红外光谱原位开展了天然粉红蓝宝石结构的研究.实验发现:天然粉红蓝宝石主要红外吸收模式包括:Al_(2)O_(3)结构中O^(2-)离子对于静止Al^(3+)离子亚点阵振动对应的红外吸收模式(ν_(Al2O3-O-Al))、Cr2O3结构中O^(2-)离子对于静止Cr^(3+)离子亚点阵振动对应的红外吸收模式(ν_(Cr2O3-O-Cr))和Al_(2)O_(3)结构中Al3+离子之间相对振动对应的红外吸收模式(ν_(Al2O3-Al-Al)).利用漫反射中红外光谱开展粉红蓝宝石结构研究具有一定的应用研究价值.

原位漫反射中红外光谱在氢氧化钠杂质分析的应用

对原位漫反射中红外光谱开展了氢氧化钠杂质研究。实验发现:氢氧化钠杂质主要包括:少量碳酸钠和水。碳酸钠分子主要的红外吸收模式包括:C=O基团伸缩振动模式(νC=O-Na_(2)CO_(3))和CO_(3)基团面内弯曲振动模式(βCO_(3)-Na_(2)CO_(3))的合频峰(νC=O-Na_(2)CO_(3)+βCO_(3)-Na_(2)CO_(3));C=O基团伸缩振动模式(νC=O-Na_(2)CO_(3));CO_(3)基团不对称伸缩振动模式(νasCO_(3)-Na_(2)CO_(3));CO_(3)基团对称伸缩振动模式(νsCO_(3)-Na_(2)CO_(3));CO_(3)基团面外弯曲振动模式(rCO_(3)-Na_(2)CO_(3))及CO_(3)基团面内弯曲振动模式(βCO_(3)-Na_(2)CO_(3));水分子主要的红外吸收模式包括:OH基团伸缩振动模式(νOH-H_(2)O)。原位漫反射中红外光谱在氢氧化钠杂质分析领域,具有重要的应用研究价值。

近红外漫反射光谱联合IL-17A在2型糖尿病患者牙周炎中的早期预测价值

目的 探究近红外漫反射光谱联合白介素17A(IL-17A)对2型糖尿病(T2DM)患者并发牙周炎的预测价值。方法 将2020年1月-2021年1月在我院就诊的T2DM患者分为牙周炎组与非牙周炎组。采用近红外漫反射光谱检测患者的牙龈血流动力学相关指标,分析患者血流动力学指标与IL-17A的相关性。结果 相比于非牙周炎组,牙周炎组患者的牙龈组织相对血流量(rGBF)降低,IL-17A、牙菌斑指数(PLI)、牙龈指数(GI)及龈沟出血指数(SBI)升高;rGBF与IL-17A呈负相关(r=-0.200),PLI与IL-17A呈正相关(r=0.201),均P <0.05。IL-17A联合红外漫反射光谱各项指标对T2DM患者牙周炎发生的预测效能明显优于各项指标单独预测的效能(P <0.05)。结论 红外漫反射光谱能够无创检测牙龈组织的相对血流量,其与IL-17A联合预测有望成为T2DM患者牙周炎早期预测和疗效、预后评价的方法之一。

手持式马铃薯干物质含量无损检测装置设计与试验

面向马铃薯品质抽检的需求,研发了手持式马铃薯干物质无损检测装置。装置硬件部分包括光谱采集模块、电路控制模块、控制与显示模块、外壳模块,装置设计为枪形,尺寸为180 mm×85 mm×210 mm。利用装置采集可见近红外漫反射光谱,比较Savitzky-Golay卷积平滑(SM)、一阶导数(first-order derivative,FD)、多元散射校正(multiple scattering correction,MSC)和标准正态变量变换(standard normal variate transformation,SNV)的预处理方式,SM结果较优。采用竞争性自适应重加权采样(competitive adapative reweighted sampling,CARS)筛选27个特征波长,建立马铃薯干物质含量的支持向量回归(support vector regression,SVR)预测模型,结果显示,验证集决定系数和均方根误差分别为0.802和0.98%。基于QT开发工具编写装置软件,包括黑白校正与测量模块、电量显示模块、光谱数据显示模块、保存数据模块、光谱数据刷新模块、检测结果显示模块。开展装置验证,预测均方根误差为1.01%,单次测量平均耗时为0.62 s。结果表明,手持式马铃薯干物质无损检测装置可快速、准确检测干物质含量,具有在马铃薯生产源头与加工现场应用的潜力。

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。

乙基纤维素分子结构三级近红外光谱组学研究

基于一维漫反射近红外(NIR)光谱及一维原位漫反射NIR光谱分别研究了乙基纤维素分子结构及平均吸收频率/吸收强度。基于二维原位漫反射NIR光谱进一步研究了乙基纤维素分子官能团变化快慢顺序。实验发现,乙基纤维素分子结构的NIR光谱吸收模式主要包括:CH3官能团中红外(MIR)不对称弯曲振动模式(δ_(asCH3-一维-MIR))的2级倍频(ν_(1-一维-NIR))、缔合O-H官能团MIR伸缩振动模式(ν_(O-H(缔合)-一维-MIR))的1级倍频(ν_(2-一维-NIR))、缔合O-H官能团MIR伸缩振动模式的2级倍频(ν_(3-一维-NIR))、C-H官能团MIR伸缩振动模式(ν_(C-H-一维-MIR))和C-C官能团MIR伸缩振动模式(ν_(C-C-一维-MIR))的合频(ν_(4-一维-NIR))、C-H官能团MIR伸缩振动模式和CH_(3)官能团MIR对称伸缩振动模式(ν_(sCH3-一维-MIR))的合频(ν_(5-一维-NIR))、CH_(3)官能团MIR不对称伸缩振动模式(ν_(asCH3-一维-MIR))和CH_(2)官能团MIR不对伸缩振动模式(ν_(asCH2-一维-MIR))的合频(ν_(6-一维-NIR))。室温下,乙基纤维素分子官能团变化快慢顺序存在着一定的差异性。变化快慢顺序为,4250 cm^(-1)(ν_(1-2-二维-NIR))>4252 cm^(-1)(ν_(1-1-二维-NIR))>4248 cm^(-1)(ν_(1-3-二维-NIR)),6988 cm^(-1)(ν_(2-1-二维-NIR))>6976 cm^(-1)(ν_(2-2-二维-NIR)),11012 cm^(-1)(ν_(3-1-二维-NIR))>10998 cm^(-1)(ν_(3-2-二维-NIR)),4016 cm^(-1)(ν_(4-1-二维-NIR))>4012 cm^(-1)(ν_(4-2-二维-NIR)),5777 cm^(-1)(ν_(5-2-二维-NIR))>5774 cm^(-1)(ν_(5-3-二维-NIR))>5782 cm^(-1)(ν_(5-1-二维-NIR)),5895 cm^(-1)(ν_(6-2-二维-NIR))>5893 cm^(-1)(ν_(6-3-二维-NIR))>5900 cm^(-1)(ν_(6-1-二维-NIR))。三级漫反射NIR光谱组学(包括一维漫反射NIR光谱、一维原位漫反射NIR光谱和二维原位漫反射NIR光谱)技术可以有效开展乙基纤维素分子结构研究。

含氟药物地塞米松棕榈酸酯分子结构三级近红外光谱研究

利用一维漫反射近红外(NIR)光谱和一维原位漫反射NIR光谱分别开展了地塞米松棕榈酸酯分子结构和平均吸收频率/吸收强度的研究。利用二维原位漫反射NIR光谱进一步开展了地塞米松棕榈酸酯分子官能团变化快慢顺序的研究。研究发现,地塞米松棕榈酸酯分子结构的NIR光谱吸收模式主要包括游离O—H官能团伸缩振动倍频模式(ν_(1-一维))、缔合O—H官能团伸缩振动倍频模式(ν_(2-一维))、CH_(2)官能团对称伸缩振动倍频模式(ν3-一维)、C=O官能团伸缩振动倍频模式(ν_(4-一维))、CH_(2)官能团不对称伸缩振动和CH_(2)官能团对称伸缩振动合频模式(ν_(5-一维))。地塞米松棕榈酸酯分子结构2级倍频模式NIR光谱吸收频率数据重现性相对较差,而1级倍频模式NIR光谱吸收频率数据重现性相对较好。室温下,地塞米松棕榈酸酯分子官能团变化快慢顺序存在着一定的差异性。一维原位漫反射NIR/二维原位漫反射NIR光谱联用技术可以有效开展地塞米松棕榈酸酯分子结构研究。

丙酮盐酸混合液提取土壤腐殖质组分的光谱学特征

采用丙酮盐酸混合液提取土壤胡敏酸(HA)和胡敏素(HU)组分,利用元素分析、紫外-可见漫反射光谱和红外光谱进行结构表征。元素分析表明,HA中C、H、N和S含量均高于HU,O含量低于HU。原子比分析表明HA的缩合度相对较高,分子结构相对复杂,HU的缩合度相对较低,分子结构相对简单。紫外-可见漫反射光谱分析表明,由于腐殖质(HS)的组成复杂,多种官能团互相干扰,HA和HU紫外-可见漫反射光谱无明显特征峰,吸光度值随着波长的增加呈下降趋势,且HA包含的吸光有机成分较多,化学组成较复杂。HA和HU紫外特征参数SUV254和E4/E6比较分析表明,与HU相比,HA芳香性较大,腐殖化程度较高。红外光谱分析表明,HA和HU具有相似的红外光谱,各研究对象特征吸收峰的吸收强度不同,其中开垦黑土20~40 cm和未开垦灰土18~37 cm土层HA的振动幅度较大,说明其包含的酚类化合物、含羟基化合物、脂肪族化合物和羧酸,以及含羰基的醛、酮、醚等化合物的含量较多。开垦黑土10~20 cm土层和未开垦灰土18~37 cm土层HU在各特征吸收峰振动幅度较大,说明其包含的酚类化合物、羧酸、脂肪烃和糖类化合物含量较多。红外光谱各吸收峰强度比较分析表明,开垦后黑土HA和HU酚类化合物、羟基官能团和脂肪族化合物等含量增加,而开垦后灰土HA和HU酚类化合物、羧酸和脂肪族化合物含量下降,表明开垦对黑土土壤有机质影响相对较小,并且在一定程度上增加了土壤有机质含量,而促进了灰土土壤有机质的分解。综上所述,丙酮盐酸混合液提取法为HS生物化学和生理活性的研究提供了新的技术手段,为合理利用土壤资源提供理论依据。

水果坚实度的近红外光谱检测分析试验研究

应用傅里叶漫反射近红外光谱技术探讨了水果坚实度无损检测的方法。利用偏最小二乘法建立了坚实度与漫反射光谱的无损检测数学模型，同时对不同光谱预处理方法和不同建模波段范围对模型的预测性能进行了对比分析。结果表明：利用傅里叶变换光谱仪采集的原始光谱的平滑预处理对结果并没有太大影响；原始光谱在800-2500nm范围的模型得到了最好的预测结果：校正集样本的相关系数r为0．869，校正均方根误差RMSEC为3．88N；预测集样本的相关系数r为0．840，预测均方根误差RMSEP为4．26N。通过本研究得出：应用近红外漫反射光谱检测水果坚实度是可行的，为今后快速无损评价水果成熟度提供了理论依据。

近红外光谱技术实时测定土壤中总氮及磷含量的初步研究

及时、准确探测土壤中的氮、磷含量,有利于精准施肥决策,提高肥料利用率。研究表明近红外技术能够探测土壤的物理和养分状况。针对不同土地利用类型,在北京大兴地区采集85份土壤样品,测定土壤氮、磷养分及其近红外漫反射光谱,并利用傅里叶变换光谱技术和偏最小二乘回归法建立了土壤总氮(N)和总磷(P)的近红外光谱校正模型。所建模型的交叉检验决定系数(R2CV)分别为0.8626(N),0.6685(P)。用未参与建模的10个样品对模型进行外部检验,总N、总P的预测相关系数(r)分别为0.9698,0.8307,预测标准误差(RMSEP)分别为0.0095%(N),0.0086%(P),RPD值(检验集样品化学测定值标准差/预测标准误差)分别为3.78(N),1.69(P)。结果表明,采用适当的光谱分析方法可以实现用近红外技术对土壤总N的精确探测及对土壤总P的粗略估测。

近红外在乳及乳制品质量检测中的研究进展

近红外光谱(near infrared spectroscopy,NIRS)的高效、方便、不破坏样本等特点是其能够进行乳及乳制品质量检测的重要条件。首先探讨了近红外技术的基本原理,并分析了乳及乳制品特点及质量检测评定标准,重点综述了近红外光谱系统硬件设备技术和数据处理的方法,在乳及乳制品质量检测中的研究成果,以促进近红外光谱技术在我国乳制品检测中得到广泛应用。