MODIFICATION OF ABSORPTION SPECTRUM OF GaAs/AlGaAs QUANTUM WELL INFRARED PHOTODETECTOR BY POSTGROWTH ADJUSTMENT

Quantum well intermixing techniques modify the geometric shape of quantum wells to allow postgrowth adjustments.The tuning effect on the optical response property of a GaAs/AlGaAs quantum well infrared photodetector(QWIP) induced by the interdifussion of Al atoms was studied theoretically.By assuming an improvement of the heterointerface quality and an enhanced Al interdiffusion caused by postgrowth intermixings,the photoluminescence spectrum shows a blue-shifted,narrower and enhanced photoluminescence peak.The infrared optical absorption spectrum also shows the expected redshift of the response wavelength.However,the variation in the absorption peak intensity depends on the boundary conditions of the photo generated carriers.For high-quality QWIP samples,the mean free path of photocarriers is long so that the photocarriers are largely coherent when they transport across quantum wells.In this case,the enhanced Al interdiffusion can significantly degrade the infrared absorption property of the QWIP.Special effects are therefore needed to maintain and/or improve the optical properties of the QWIP device during postgrowth treatments.

Crystal microstructure, infrared absorption, and microwave electromagnetic properties of (La_(1-x)Dy_x)_(2/3)Sr_(1/3)MnO_3

The manganite perovskite polycrystal samples of （La1-xDyx）2/3Sr1/3MnO3 （x = 0, 0.1, 0.2, 0.35, and 0.5） doped with Dy were prepared by solid state reaction in atmosphere to measure their X-ray diffraction （XRD） patterns, scanning electric microscope （SEM） images, infrared absorption spectra, and microwave electromagnetic properties. The displacement of the XRD peaks of the samples was found, and the 2θ increases from 0.05o to 0.5o. The grains of undoped La2/3Sr1/3MnO3 not only have the greatest size, but also the most regular shape. The size of the grains decreases as the Dy doping content increases from 0 to 0.5. The infrared absorption spectra of all samples were measured at room temperature. An absorption peak corresponding to the stretching vibration mode of Mn-O bonds appears within the range of 591-629 cm-1. The absorption peak shifts from a higher frequency to a lower one with the decrease of the average ionic radius of A-site. The frequency de- pendence of microwave-absorbing properties, imaginary components of the complex magnetic permeability μ＂ and dielectric permeability ε＂ for all samples was measured at room temperature from 8 to 13 GHz. The results show that the loss of microwave absorption can be attrib- uted to both the magnetic and electric losses. The increase of Dy content not only enhances the microwave absorption but also causes the displacement of the absorption peaks.

Infrared Absorption Spectra of Serpentine Cat's Eye from Sichuan Province of China

Infrared （IR） absorption spectra and X-ray powder diffraction （XRD） patterrns of sexpenfine cat＇s eye from Sichuan Province have been investigated, and infrared absorption bands of the serpentine have been assigned in this paper. The results indicate that the bands near 3 600 - 3 700 cm^-1 belong to the stretching absorption band VOH, the bands in 948 - 1 100 cm^-1 axe assigned to the stretching vibraling band Usvo, and the bands at 600 570 and 440 cm^-1 respectively belong to the bending vibration band VOH, δMg-O and δSi-O. The serpentine cat＇ s eye includes two types： chrysotile and antigorite. Chrysotile has a sharp and intensive band at 3 688 cm^-1 and a weak band at 3 643 cm^-1 , while antigorite has only one intensive band in the region. At vibration band VSi-O, chrysotile and antigorite have a similar feature at 1 071 cm^-1, but the band at 980 cm^-1 in anfigorite has been split into two bands in chrysotile - a strong one at 1 027 cm^-1 and a weak one at 949 cm^-1. In addition, antigorite has a characteristic bending vibrating band δMg-O at 570 cm^-1. Based on the analysis of the feature of crystal structure, their IR differences axe well explained.

Oral absorption of hyaluronic acid and phospholipids complexes in rats

AIM： To prepare a complex of hyaluronic acid （HA） and phospholipids （PL）, and study the improvement effect of PL on the oral absorption of HA. METHODS： The complex of HA-PL （named Haplex） was prepared by film dispersion and sonication method, its physico-chemical properties were identified by infrared spectra and differential scanning calorimetry （DSC）. The oral absorption of Haplex was studied. Thirty-two healthy rats were divided into 4 groups randomly： （1） a normal saline （NS） control group; （2） an HA group; （3） a mixture group and （4） a Haplex group. After intragastric administration, the concentration of HA in serum was determined. RESULTS： The physico-chemical properties of Haplex were different from HA or PL or their mixture. After Haplex was administered to rats orally, the serum concentration of HA was increased when compared with the mixture or HA control groups from 4 h to 10 h （P 〈 0.05）. The AAUCo-12, of Haplex was also greater than that of the other three groups （P 〈 0.05）. CONCLUSION： The method of film dispersion and sonication can prepare HA and PL complex, and PL can enhance the oral absorption of exogenous HA.

Infrared emissivity of transition elements doped ZnO

Infrared emissivity was studied in Zno.99Mo.olO （M is Mn, Fe or Ni） and Znl_xCoxO （x=0.01, 0.02, 0.03 and 0.04） powders synthesized by solid-state reaction at various temperatures. XRD patterns confirm the wurtzite structure of the prepared samples. No peaks of other phases arising from impurities are detected in Mn- and Co-doped ZnO, hut the peaks of ZnFe204 and NiO are observed in Zno.99Feo.010 and Zno.99Nio.o10. The SEM observations indicate that with larger grain sizes than those of Zn0.99Feo.010 and Zno.99Ni0.010, Co-doped ZnO exhibits smooth grain surfaces. The infrared absorption spectra show that infrared absorptions related to oxygen in Zn0.99M0.010 are much stronger than those in Co-doped ZnO. Co ions are dissolved into the ZnO lattice with Co2＋ state from XPS spectra analysis. The infrared emissivity results imply that the emissivity of Zno.99Ni0.010 is the highest （0.829） and that of Zno.99C00.010 is the lowest （0.784） at 1 200 ℃. The emissivity of Zno.99Co0.010 decreases to the minimum （0.752） at 1 150 ℃ and then increases with growing calcination temperature. As the Co doping content grows, the emissivity of Co-doped ZnO calcined at 1 200 ℃ falls to 0.758 in the molar fraction of 3% and then ascends.

Research on Radiant Carrier of Matching Radiant Type Far Infrared Textiles

This paper deals with the radiation effects of different kinds ofradiant carriers used in making far infrared textile materials.From two radiation experiments,methods of testing radiation ef-fects of carriers have been found,results of the experiments arediscussed.Finally,some conclusions for choosing appropriateradiant carrier are drawn.

燃煤锅炉温度场与高温腐蚀气氛场同步在线检测装置开发及应用

燃煤锅炉主燃区燃烧场的经济性、安全性和环保性对于智慧电厂建设具有重要意义。其中,水冷壁近壁面高温腐蚀H_(2)S和CO气体浓度的实时在线监测尤为重要。为实现燃煤锅炉主燃区温度场和高温腐蚀气氛场的同步测量,基于红外热成像原理,采用Optris-PI1M小型红外热成像仪,基于LabVIEW温度实时采集应用软件,在炉膛的观察口对主燃区温度场进行连续监测。以低成本1.5μm附近的通信波段激光器作为测量高温腐蚀气体H_(2)S和CO的激光光源,并结合波长调制光谱技术和频分复用技术,以实现H_(2)S和CO气体浓度的同步检测。线性度实验表明,其线性拟合相关系数为0.9995。将研制的同步检测仪器对某300 MW四角切圆燃煤锅炉的主燃区的温度场和气氛场进行了现场应用试验。现场测试结果表明,锅炉主燃区温度主要分布范围在1300~1400℃,最高温度达到了1500℃;同时得到了锅炉主燃区的H_(2)S和CO浓度分布,H_(2)S浓度在12~125 mg/m^(3)的范围内波动,而CO浓度主要分布在10%~20%之间,最高可达22%;炉内H_(2)S和CO的浓度呈正相关,氧气浓度保持在1%以下,由于厌氧燃烧会导致两种气体的含量增加,从而造成对水冷壁近壁面的高温腐蚀。

氟诺哌齐结构和性质的密度泛函理论研究

氟诺哌齐是一种新型的抗阿尔茨海默病临床候选药物,目前尚处于临床试验阶段;对氟诺哌齐进行密度泛函理论研究,有助于揭示其分子的性质和功能.在B3LYP/6-311+G(d,p)基组水平上,采用密度泛函理论(DFT)的方法优化氟诺哌齐的分子结构;在相同基组水平下经过谐振频率分析,证实了12种分子构象的稳定结构,并确定了优势构型为DC20-1.根据Marcus理论,对其重组能进行模拟计算,得出氟诺哌齐分子不具备运输性质.通过前线轨道(FMO)分析,发现氟诺哌齐分子具有一定的电子跃迁能力和分子内反应活性,活性反应位点为C15、O28、C23和O26.根据红外光谱、紫外-可见吸收光谱模拟计算结果,对谱图数据进行了讨论分析,研究结果可作为氟诺哌齐表征和鉴别的参考依据.

甲醇气体浓度检测系统设计

针对现有的甲醇气体检测方法已无法满足迅速发展的燃料电池市场对快速检测的需求问题,以甲醇气体为研究对象展开了检测系统的设计和定量分析。首先,根据甲醇气体红外吸收特性选取光源并设计其驱动电路,气体将对光源进行调制。其次,利用正交锁相放大技术和小波分解法,设计了一种采用小波分解对锁相放大输出信号进行处理的锁相放大系统,其利用小波分解技术对锁相放大输出信号进行二次处理,检出限为9 ppm,实现检测微弱信号的目的,且响应时间约为2 s。最后,基于线性拟合建立分析模型,信号决定系数为0.979。实验表明,本文设计的甲醇检测系统具有模型的预测准确性和灵敏度较高等特点,能够实现甲醇的快速定量检测。

基于红外光谱法的公路路面沥青改性剂含量检测研究

公路路面沥青改性剂含量会对沥青性能产生重要影响。为了提升公路路面沥青质量,延长使用寿命,文中研究基于红外光谱法的公路沥青改性剂含量检测方法,通过不同含量样本制备,溶于四氢呋喃后得到溶液,并制备样本薄膜。利用傅里叶变换红外光谱仪照射薄膜,根据特征吸收峰分析改性剂含量。结果显示,977 cm^(-1)处特征峰与改性剂相关,而基质沥青特征峰则与甲基基团相关。此方法检测精度高,误差小于0.1%,适用于公路路面沥青改性剂含量的检测。

葡萄糖仿生纤维定性鉴别方法探讨

为了找出定性鉴别葡萄糖仿生纤维的方法,选取手感目测、燃烧、显微镜观察、化学溶解、熔点法和红外光谱6种纤维定性鉴别方法,根据每种方法的特点选取4种纤维进行对比分析,尝试找出鉴别葡萄糖仿生纤维的简便方法。通过试验分析得出:葡萄糖仿生纤维的鉴别需要结合色泽、纤维特殊燃烧现象、熔点差异和显微镜观察,可以将化学性能相近的聚乳酸纤维排除,选用二氯甲烷试剂或红外光谱法进行辅助确认,几种方法相互验证可以准确定性鉴别葡萄糖仿生纤维。

烃相态评价技术在薄差储层中的创新应用

随着资源劣质化程度加剧,储层呈现薄、低渗、低丰度及强非均质性等特点,薄差层油气显示的发现成为随钻解释评价的难点。烃相态评价技术采用红外非散射吸收光谱检测地层中烃类物质组成及含量变化规律来定性定量快速评价储层的流体性质,该技术分析速度快(分析周期≤8 s)、采集参数维数多、分析谱图可视化程度高、效果直观,经实践检验对高钻速下的薄差层油气显示、储层非均质性及油层底部见水的评价效果显著,具有较好的现场推广价值。

一维有序单链水红外吸收光谱的分子动力学模拟

水在纳米通道中会表现出与体相水不一样的独特结构和动力学性质,但现有实验技术依然无法有效地进行探测和表征.光谱是用于研究和鉴别物质成分及其特性的有效技术手段,因此本文利用分子动力学模拟计算了受限在(6,6)单壁碳纳米管中一维有序单链状水(single-file water,SW)的红外吸收光谱,研究发现SW在0—35 THz区域内的主峰相对于体相水有明显的蓝移和增强,分析表明是由于SW的有序性导致分子间的摆转(libration)振动(包括rock,twist,wag三种模式)耦合权重发生变化引起的,即频率较高的twist和wag模式在SW中相对体相水中束缚能减小,振动相对容易发生,从而导致谱峰发生蓝移和增强.与此同时,研究表明SW光谱分量特性能很好地预测和解释SW的结构和动力学性质.进一步地,太赫兹电场效应模拟实验验证了SW的红外吸收能力基本符合光谱的分布特性.

高精密红外探硫传感器的研究与设计

根据气体的红外吸收特性,SO2的特征吸收峰所在的波长与人体红外波长范围正好重叠。因此,红外硫探测器成为了敏感元件,国内生产的红外硫探测系统测量精度不够,进口红外硫探测系统很大程度对国内进行了技术封锁。基于此,该文采用非分光红外技术,针对当前高精密红外低硫传感器最重要信噪比影响源进行了研究,优化了光源驱动、红外气室恒温控制、信号采样与微弱信号处理电路设计等,完成了一套低硫探测装置的设计,经过测试,信号的噪声波动从原来的140 uV减小到50 uV左右,检出限达到0.01 ppm,实现了低硫检测领域的技术创新,该项目成果已经成功实现量产。

安徽省重点镉污染区土壤重金属Cd红外光谱特征研究

采用红外光谱特征可以分析土壤中重金属Cd。应用傅立叶红外光谱分析测试仪对采集到的6个具有代表性的土壤样品进行快速分析与测试,定性分析结果表明,土壤中的矿物成分为蒙脱石、伊利石、白云母、蛭石、滑石、高岭石(结晶程度好与差的)、角闪石和镁角闪石等。土壤中的Cd^(2+)以平衡电价方式的晶面吸附在黏土矿物上,形成的共价键的键型振动是Si—O—Cd键,为弯曲振动,吸收特征峰为437.52 cm^(-1),439.75 cm^(-1),457.45 cm^(-1),462.69 cm^(-1),464.44 cm^(-1),467.81 cm^(-1)。

中红外差分吸收激光雷达探测苯气体浓度

苯作为挥发性有机化合物(VOCs)的重要组成部分,其大气污染状况日益引起人们的关注,中红外波段通常是分子的基频指纹吸收区,已成为痕量气体检测的重要波段,而差分吸收激光雷达是探测大气痕量气体的重要手段,故针对区域性苯浓度实时遥感问题,提出基于中红外带间级联激光器(ICL)的探测大气苯浓度路径积分型差分吸收(IPDA)激光雷达系统。首先,在分析IPDA激光雷达的探测原理的基础上,构建了IPDA激光雷达的反演算法及其误差分析模型。其次,详细分析来自HITRAN数据库的中红外3100 cm^(-1)附近苯以及主要干扰气体(如HCl,CH_(4)和H_(2)O)的吸收光谱,结合HCl和CH_(4)着重考虑了H_(2)O对探测结果的影响,选择IPDA激光雷达的测量波长和参考波长分别为3090.89和3137.74 cm^(-1)。再次,基于两个连续波ICL,设计了探测大气苯浓度IPDA激光雷达系统,并可通过控制温度和驱动电流调谐激光器的输出波长,使其波长分别稳定在强吸收谱区和弱吸收谱区,并设计了基于中红外衍射光栅的光谱分光子系统,以实现双波长接收信号的同步探测。最后,基于标准大气模型,仿真分析了不同路径长度、能见度和水汽浓度情况下激光雷达的探测性能,并搭建中红外波段检测气体池开展了测试实验,以验证该IPDA激光雷达系统的可行性。仿真及实验结果分析表明,当大气能见度为5 km,水汽浓度低于0.4%时,苯的浓度路径积(CL)在0.1~24 mg·m^(-3)·km范围内探测的相对误差优于10%,而苯的CL为5 mg·m^(-3)·km时探测相对误差优于1%;初步实验测试了中外红波段差分吸收激光雷达探测的线性相关系数R^(2)约为98.7%。

单宁酸对丝素蛋白二级结构的影响作用研究

蛋白质的二级结构是其发挥生物功能的重要基础结构,因此本文通过单宁酸和丝素蛋白反应,研究不同摩尔浓度的单宁酸对丝素蛋白二级结构的影响。使用紫外可见光吸收光谱(UV-Vis)、荧光发射光谱(FL)和傅里叶红外吸收光谱(FTIR)等表征技术对单宁酸与丝素蛋白的反应产物进行测试,结果表明单宁酸可以影响丝素蛋白的二级构象,并呈现一定的变化趋势。单宁酸摩尔浓度逐渐增加到20μmol/L时,α螺旋和无规卷曲结构逐渐增多,β折叠结构逐渐减少。单宁酸摩尔浓度继续上升,α螺旋和无规卷曲结构逐渐减少,β折叠结构逐渐增多。

陕西白河小东沟绿松石矿明矾石的矿物学及谱学特征

鄂豫陕地区是我国重要的绿松石产区,其中陕西白河位于秦岭东部,是绿松石的重要矿点之一。选取陕西白河县小东沟绿松石矿床的黄白色和绿色伴生矿样品,对其进行薄片观察、X射线粉晶衍射测试、红外光谱仪和拉曼光谱仪分析的矿物学和谱学研究。测试结果表明样品为明矾石,还含有少量磷铝矾和高岭石。可观察到其呈脉状结构产出,表明具有多期次形成阶段,后期结晶颗粒较好,具有典型假立方体状的菱面体的结晶特点;该矿物红外光谱谱带主要分布在3697~3488 cm^(-1)以及1638~433 cm^(-1)范围内,在3697和3620 cm^(-1)处具有高岭石中OH导致的弱红外吸收谱峰;明矾石的拉曼光谱谱峰由SO42-振动导致,此外在3700和3626 cm^(-1)处出现高岭石中OH的伸缩振动导致的峰位。结合该地区绿松石矿床风化淋滤特点,判断该区明矾石矿脉形成于低温富碱性环境下,当含矿溶液或围岩中形成绿松石所需成分不足时,趋向于形成明矾石,以脉状、块状形式产出,并共生有磷铝矾和高岭石矿物,为研究本区绿松石矿床特点提供依据。

冻胶绿松石及其原料的宝石学与谱学鉴别

绿松石的有机充填处理由来已久,浸胶(丙烯酸酯类)、注胶(环氧树脂类)两种充填方式已有大量研究,冻胶(丙烯酸酯类)作为一种较新的充填方式,研究基础较为薄弱。以天然绿松石原料及其对应冻胶充填后的绿松石为研究对象,结合处理所用冻胶材料,通过常规宝石学测试、红外光谱测试、三维荧光光谱测试、紫外-可见吸收光谱测试等测试技术,对冻胶充填前后绿松石的宝石学特征和谱学特征进行系统的对比分析研究。结果显示:冻胶充填后,绿松石的颜色和致密度得到明显提升,表面有胶质物残留及白色“松花”现象,冻胶充填绿松石在长波紫外灯下显示弱-中等的蓝色荧光,短波下显示弱荧光,胶质物残留位置发光明显,而绿松石原料在长短波下均呈惰性;冻胶原液的红外光谱显示C O伸缩振动峰[(1722±5)cm^(-1)]、C-O伸缩振动峰[(1156±5)cm^(-1)]、C C伸缩振动峰[(1637±5)cm^(-1)],还出现了苯环结构和C-OH的吸收峰,表明其主要成分可能为含有苯环、羧酸、醇等结构的化合物与甲基丙烯酸酯的共聚物;冻胶充填绿松石的红外光谱中出现了与冻胶原液对应的有机基团吸收峰,可有效鉴别充填绿松石与原料;三维荧光光谱测试显示:绿松石原料在整个激发波长范围内没有出现明显的荧光中心,冻胶充填绿松石均出现了发射波长在465、445和410 nm附近的特征荧光中心,激发波长范围为360~400 nm,与冻胶原液的荧光中心相对应,说明荧光由胶质物导致,可作为冻胶充填的重要证据;绿松石原料和冻胶充填绿松石的紫外-可见吸收光谱均符合天然绿松石的吸收特征,说明冻胶充填过程中未添加有机染剂。

基于非分光红外法的高硫煤样全硫测定精度改善研究

非分光红外法(NDIR)以其快速、非接触、试剂污染少、高选择性和低检出限的优势而被广泛用于煤样全硫的测定,但由于样品中硫的释放特性不同导致二氧化硫检测器输出的吸收峰谱差异较大,因而在动态测定场合中采用积分面积法进行全硫测定时,峰谱变化对硫检测器动态检测性能的要求更高,尤其在高浓度测定时易出现吸收饱和、输出信号呈现严重的非线性从而影响全硫测定结果的精度。结合非分光红外检测原理,从高浓度测定时NDIR的响应角度剖析高硫煤样NDIR全硫测定的特点,提出气路缓冲、吸光度线性化2个NDIR全硫测定精度改善方法,以改善检测器响应区间及有效控制检测器的测定误差。吸光度线性化算法用于标样测试的应用验证结果表明:通过气路缓冲装置的气流均匀化效应可降低待测二氧化硫的浓度峰,使得NDIR检测器工作在合理的浓度范围;吸光度标定算法可将检测器的非线性响应线性化,能显著改善高硫样全硫测定精度。