1) near-infrared spectroscopy
近红外光谱术
2) NIRS
近红外光谱术
1.
In this paper, fundamentals for the measurement of CBF with near infrared spectroscopy (NIRS) were introduced.
介绍了用于大脑血流量检测的近红外光谱术的基本原理和实验体系,该系统可完成对近红外光学信号的实时采集、处理和显示等功能。
3) Near-infrared spectroscopy
近红外光谱技术
1.
Near-infrared spectroscopy technology and the advance on pharmaceutical applications;
近红外光谱技术及其在药学领域的应用进展
2.
Application of near-infrared spectroscopy technology in studying the damage of rats with Parkinson disease by radiofrequency;
近红外光谱技术在帕金森病大鼠脑组织射频毁损术中的应用
3.
The food industry applications of Near-infrared spectroscopy was introduced in this paper.
介绍现代近红外光谱技术在食品工业中的应用。
4) near infrared spectroscopy
近红外光谱技术
1.
Determination of three components in raw milk using near infrared spectroscopy by elman model;
Elman网络近红外光谱技术同时测定鲜乳中三种主成分含量
2.
Research for Aerobic Capacity of Rowing-boat Athletes by Near Infrared Spectroscopy;
近红外光谱技术监测赛艇运动员有氧代谢能力的研究
3.
Near infrared spectroscopy(NIRS) technique has become a new method of pharmaceutical analysis as a simple,fast,and non-invasive method.
近红外光谱技术作为一种简单、快速、无损的检测手段,已经成为药物分析中新兴的方法。
5) NIRs
近红外光谱
1.
Rapid determination of moisture in silver carp surimi by near infrared reflectance spectroscopy(NIRS);
利用近红外光谱技术快速测定白鲢鱼糜中的水分含量
2.
Determination of 1000-grain Weight of Paddy Using NIRS Technique
稻谷千粒质量近红外光谱定量分析
3.
A Convenient Measuring System for Sugar Content of Fruits has been designed Based on NIRS Technology,and Least Squire is then used to establish the prediction models,finally the result shows ideal through a series of test.
基于近红外光谱技术设计了一种便携式的水果含糖量检测系统,在特定特征波长应用最小二乘法建立了数学模型,并对其进行了校验,结果比较理想。
6) near-infrared spectroscopy
近红外光谱
1.
Determination of chemical oxygen demand in wastewater by near-infrared spectroscopy;
近红外光谱法测定废水化学需氧量
2.
Rapid analyze of denatured fuel ethanol by near-infrared spectroscopy(DA7200);
变性燃料乙醇的快速近红外光谱(DA7200)分析
3.
On-line determination for concentrating process of red ginseng alcohol extract using near-infrared spectroscopy;
红参醇提液浓缩过程近红外光谱在线分析方法
补充资料:电化学调制红外光谱
分子式:
CAS号:
性质:该法使用色散型光谱仪,信号检测系统采用锁定技术。实验时随着红外波长非常慢的变化,电极在两个选定的电位下以低频(如约10Hz)的方波(或正弦波)调制。电极响应信号包括反射率直流分量R和由电位调制引起的小交流分量ΔR,以及整个频率区的噪声,通过锁定放大器得到与调制电位同频率的信号ΔR。把几次扫描的光谱平均,得到以ΔR/R对波长或波数的红外光谱。
CAS号:
性质:该法使用色散型光谱仪,信号检测系统采用锁定技术。实验时随着红外波长非常慢的变化,电极在两个选定的电位下以低频(如约10Hz)的方波(或正弦波)调制。电极响应信号包括反射率直流分量R和由电位调制引起的小交流分量ΔR,以及整个频率区的噪声,通过锁定放大器得到与调制电位同频率的信号ΔR。把几次扫描的光谱平均,得到以ΔR/R对波长或波数的红外光谱。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条