1.
The Preparation and Characterization of near-UV CdS Quantum Dots
近紫外区CdS量子点的合成及表征
2.
Measurement of Near-UV Absorption Cross Sections of CS_2
二硫化碳气体近紫外吸收截面积测定
3.
Changes in gap junction-mediated intercellular communication of rabbit lens epithelia cells irradiated by UVA
近紫外线对兔晶状体上皮细胞通讯功能的影响
4.
They not only see in the near ultraviolet, but they also can see colors that we cannot even envision.
鸟类不仅可以看到近紫外光,还看得到我们无法想像的颜色。
5.
Two fluorescent compounds, shown absorptions in near ultraviolet region, can emit red and blue fluorescence respectively with high fluorescent quantum yields.
两种隐色化合物在近紫外光区有吸收并分别发射红色和蓝色荧光。
6.
Mechanism of degradation of the electrical properties of pellicular antistatic thermal control coatings under near ultraviolet irradiation
近紫外辐照对塑料薄膜型防静电热控涂层导电性能的退化效应
7.
Research of UVA in affecting Cx43 protein among rabbit lens epithelia cells
近紫外线对兔晶状体上皮细胞Cx43蛋白影响的研究
8.
uv proximity printer
紫外线接近式曝光装置
9.
Present status of standards for determination of UV-protective textiles
纺织品防紫外线性能的检测标准近况
10.
Preparation and Characterization of Anti-near-infrared/Ultraviolet Coating Additive;
抗近红外、紫外涂料添加剂的制备和表征
11.
Determination of Taxol in Taxol Injection Using Near Infrared Transmission Spectroscopy
采用近红外透射光谱对紫杉醇注射液中紫杉醇含量的快速测定
12.
Application of Near-Infrared Reflectance Spectroscopy to the Discrimination of Salt Tolerance of Alfalfa Cultivars
近红外光谱紫花苜蓿品种耐盐性鉴别方法研究
13.
Highly damage resistant,broadband,hard anatireflection coating for high power lasers in the ultraviolet to near-infrared wavelength regions
紫外到近红外波段大功率激光器用硬质高抗损伤宽带增透膜
14.
The Application Study of Near Infrared and Ultraviolet-visible Spectrometry in the Caprolactam Production;
近红外及紫外可见光谱技术在己内酰胺生产中的应用研究
15.
The Differences Between the New and Old V.R.of Ultraviolet,Visible,the Near-infrared Spectrophotometers
浅论新旧紫外、可见、近红外分光光度计检定规程的差异
16.
Ultraviolet light or the ultraviolet part of the spectrum.
紫外光,紫外线的紫外光或光谱的紫外线部分
17.
The Ultraviolet Absorptions of Coastal Seawater of China, COD Direct Determination of Seawater by Ultraviolet Spectrophotometry and As (v) Removal with Chitosan as Adsorbent;
中国近海海水紫外吸收及紫外法测定海水COD和壳聚糖吸附去除As(v)的研究
18.
An ordinary fluorescent lamp positioned close to the reaction mixture suffices as a source of UV light.
将普通的荧光灯置于反应混合液近旁,即足以作为紫外光光源。