The absorption of doping polyaniline becomes very intense and the absorption peak generates bathochromic shift.
掺杂聚苯胺的吸收变得非常强烈,吸收峰产生红移。
Red and blue shifts were not found at absorption peak positions.
随着温度升高,峰值位置未见红移或蓝移。
And the 2150cm-1 absorption peak is attributed to the hydrogen donor.
吸收峰则被认为是由于氢施主所引起的。
And it makes the absorption peak of the exciton move to higher energy.
并使激子吸收峰从红外波段进入可见光波段。
The absorption peak of FL was red shifted when silver nanoparticles were added.
FL溶液中加入纳米银,FL分子吸收峰位发生红移。
Gain the best concentration of doping corresponding to the strongest absorption peak.
存在并给出对应强吸收峰的最佳掺杂浓度。
According to the result of FTIR, the absorption peak of the hemicellulose became weaker.
FTIR分析表明,半纤维素和部分木质素的特征吸收峰减弱。
The plasmon response absorption peak broadens due to the special dendritic nanostructure.
由于树枝状的特殊结构,其等离子体共振吸收峰出现较大的宽化。
The conductive ceramics with the largest infrared absorption peak correspond to the smallest resistivity.
具有最大红外吸收峰的导电陶瓷对应最小的电阻率。
Under the same conditions, methyl orange by UV - visible absorption peak was basically unchanged in closed glass containers.
相同条件下,盛于密闭玻璃容器中甲基橙溶液的紫外-可见特征吸收峰强度却基本不变。
In some cases, if polarized light is used, the absorption peak may become more distinct and the resolving power may increase.
对某些研究对象采用偏光测量,可以使吸收峰更为明显,提高分辨能力。
The optical nonlinear phenomena could be observed obviously around the absorption peak, due to the surface plasmon resonance.
玻璃中的金属纳米粒子由于其表面等离子共振,在特征峰附近会出现明显的光学非线性现象。
As a result, they exert effect on it by changing its UV absorption peak value. The Pb 2 + has the greatest effect on the DNA conformation.
结果显示重金属铅、镉、锌均可影响小麦dna构象,使其紫外吸收峰值发生变化。
The intensity of UV absorption peak of LDL increased, while fluorescence and synchronous fluorescence intensities, which typified amino acids, decreased.
氧化低密度脂蛋白紫外吸收增强;表征氨基酸残基信息的特征荧光强度和同步荧光强度降低;
The absorption of doping polyaniline becomes very intense and the absorption peak generates bathochromic shift in ultraviolet visible absorption spectrum.
紫外-可见吸收光谱表明,掺杂态聚苯胺的吸收峰变宽而且发生红移。
Results of absorption properties of different depth composites prove that the absorption peak is shifted to high frequency as the depth of materials decreases.
通过对不同厚度材料的吸波性能研究,结果表明随材料厚度的减小,材料对电磁波的吸收峰向高频移动。
We also investigate the effect of the substrate temperature in the nucleation stage on the FTIR absorption peak position and compressive stress in the thin films.
还研究了成核阶段衬底温度对薄膜立方相红外吸收峰峰位的影响。
The absorption peak intensity of alcohol-aqua association system was in proportion to alcohol content. Accordingly, new method to determine alcohol content was discovered.
利用乙醇-水缔合体系产生的吸收峰强度与乙醇含量成比例的关系,建立了测定乙醇的新方法。
The transmission spectrum and the absorption spectrum of alcohol shows that the characteristic absorption peak shifts with alcoholicity due to the molecular configuration.
通过对酒精透射光谱和吸收光谱的研究发现,其特征吸收峰随浓度不同发生漂移,从分子结构能级角度对其做了定性解释;
The ultraviolet absorption peak narrows, absorption intensity increases, the absorption margin becomes steep and moves to longer wavelength, the optical band gap decreases as well.
紫外吸收峰变窄,强度增加,吸收边变得陡峭并向长波方向移动,光学带隙降低。
Conclusion: the improvement method is suitable for the ultraviolet determination of two component mixture in which the interference component possess an undisturbed absorption peak.
结论:所提出的改进方法适用于干扰组分有单独吸收峰的双组分混合物的紫外测定。
The sample pre-treatment during setting up the correcting model by partial least-squares (PLS) and the way of optimizing wavelength according to normal absorption peak are discussed.
讨论了采用偏最小二乘法(PLS)建立校正模型过程中样品预处理及利用常规吸收峰优选波长的方法。
The terahertz absorption spectra and the characteristic absorption peak of test samples are obtained, and comparing with the absorption spectra measured by other research institutions.
得到了待测样品的太赫兹吸收光谱,确定了其特征吸收峰的位置,与其他研究机构所测吸收谱进行了对比分析。
Results Utilizing lactic acid dissolution and alcohol precipitation technology could prepare granules of chitosan lactate, which had characteristic absorption peak in infrared spectrum.
结果利用乳酸溶解和醇沉淀工艺可制备出壳聚糖乳酸盐颗粒,在红外光谱中具有特征性吸收峰。
This technique can provide important information for identifying natural and synthetic emeralds, combined with the existing state of water and the absorption peak of chloric ion in emeralds.
根据祖母绿中是否含水、水的赋存状态以及氯的吸收峰,可作为准确鉴别天然祖母绿和合成祖母绿的重要依据。
The energy absorption peak value and the peak width of cellular al alloy were bigger than those of cellular al, indicating that cellular al alloy is a better kind of material than cellular al.
胞状铝合金的能量吸收效率峰值和峰宽均大于胞状纯铝,表明胞状铝合金是一种更为优秀的吸能材料。
The energy absorption peak value and the peak width of cellular al alloy were bigger than those of cellular al, indicating that cellular al alloy is a better kind of material than cellular al.
胞状铝合金的能量吸收效率峰值和峰宽均大于胞状纯铝,表明胞状铝合金是一种更为优秀的吸能材料。
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