1.
CdTe Quantum Dots Fluorescence-Quantum Yield and Biological Labeling
CdTe量子点荧光量子产率及生物标记
2.
Synthesis and characterization of high quantum yield CdTe quantum dots in aqueous phase
高量子产率水溶性CdTe量子点的制备与表征
3.
Quantum yields for photoinitiation and photodecomposition are also low with Mn.
采用Mn时,光引发和光分解的量子产率也很低。
4.
Fluorescence spectra and fluorescence quantum yield of scopoletin
东莨菪内酯的荧光光谱与荧光量子产率
5.
The Snthesis of Meso-tetrakis (1-arylpyrazol-4-yl) Porphyrins and Their Quantitative Structure-Property Relationships Studies;
中位芳基吡唑卟啉合成及其分子结构与荧光量子产率间定量相关性研究
6.
Polymerization rate and polymericular weight Control in acrylic fiber production
腈纶生产中聚合速率及聚合物分子量的控制
7.
Variation Law of Seed Oil Content and Yield of Xanthoceras sorbifolia Populations in Different Areas
不同地区文冠果群体种子含油率·产量变异规律
8.
Studies on oilseed yield and nitrogen efficiency in different cultivars of oilseed rape(Brassica napus)
不同品种油菜子粒产量及氮效率差异研究
9.
Quantum Key Generation Rate of Decoy State Quantum Key Distribution with Heralded Single-photon Source
预报单光子源诱骗态量子密钥产生率及数值计算
10.
The green emitting GaP has quantum efficiencies as high as0.6% recorded for laboratory. Present marketed units, however, have much greater than an order of magnitude less efficiency.
按实验记录,发绿光的磷化镓的量子效率高达0.6%但目前请市售产品效率则低一个数量级还多.
11.
specific transformer output
变压匹位容量的生产率
12.
In short supply of water, leaf carboxylation efficiency and apparent quantum yield were cut down.
另外表明,水分供应不足,叶片的羧化效率和表观量子产额下降。
13.
Cost is the numerator.The denominator might be service, customer satisfaction, quality levels or productivity, for example," Kirwin says.
成本是分子,而分母可能是服务、客户满意度、质量水平或生产率等。”
14.
The Research of Cost Efficiency Improvement in Hi-Mix Low Volume Manufacture in EMS Industry;
电子代工(EMS)企业少量多样生产环境下成本效率提升研究
15.
Effects of Irrigation Stage and Rate on the Components of Starch,Grain Yield and Water Use Efficiency in Wheat
灌水对小麦子粒淀粉组成、产量及水分利用率的影响
16.
Conductivity measurement of an expanding plasma cloud generated by hypervelocity impact LY12 aluminum target
超高速碰撞LY12铝靶产生膨胀等离子体云的电导率测量
17.
The variation of monomer conversion with reaction time and that of molecular weight with monomer conversion were investigated in detail.
详细考察了单体转化率与反应时间、产物分子量及分子量分布间的关系.
18.
Experimental results show that both the variation of monomer conversion with reaction time and molecular weight with it′ s distribution show a linear relationship.
研究发现,单体转化率与反应时间、产物分子量及分子量分布呈线性关系。