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1)  Resonance light scattering
共振散射光
1.
Studies on the resonance light scattering(RLS) properties of PVK show that the interaction of PVK with the proteins results in a great enhancement of RLS signals at 380 nm when pH=3.
对PVK的共振散射光性质研究发现 ,pH =3 0时 ,PVK与蛋白质形成缔合微粒时将导致PVK 380nm处RLS信号急剧增加 ,其强度增加值与蛋白质的浓度呈线性关系 ,据此可以建立一种测定蛋白质的新方法。
2.
Resonance light scattering spectra caused by interaction of Cu-PVK nanoparticles with nucleic acids and its analytical application;
对Cu-PVK的共振散射光(RLS)性质研究发现Cu-PVK与核酸形成缔合物时将导致Cu-PVK本身RLS信号急剧增加,基于此建立一种用RLS信号测定痕量核酸的新方法。
2)  resonance light scattering
共振光散射
1.
Resonance light scattering of 1-hydroxypyrene-brilliant green-sodium dodecylbenzene sulfonate system and its analytical application;
1-羟基芘-灿烂绿-十二烷基苯磺酸钠体系的共振光散射光谱及分析应用
2.
A study on interaction of zincon with proteins by resonance light scattering measurements;
锌试剂-蛋白质体系的共振光散射光谱研究
3.
The Application of Resonance Light Scattering Technique in the Environmental Analysis;
共振光散射技术在环境分析中的应用
3)  Resonance light-scattering
共振光散射
1.
Study on resonance light-scattering of histene-DNA and its application;
组蛋白-DNA共振光散射法的建立及应用
2.
Determination of nucleic acid by a resonance light-scattering technique with water-soluble schiff base C_(13)H_(22)NO_6;
水杨醛氨基葡萄糖席夫碱C_(13)H_(22)NO_6共振光散射法测定DNA
3.
Study on the resonance light-scattering spectroscopy of the triple system of the Fe(bpy)(phen)SO_4-myristyldyridinium bromide-BSA;
Fe(phen)(bpy)SO_4-溴代十四烷基吡啶-蛋白质三元体系共振光散射光谱的研究
4)  resonance light scattering (RLS)
共振光散射
1.
Research was conducted on the spectral characteristics of resonance light scattering (RLS) of colloidal silverchloride, with factors including the effects of time and order of reagent addition, as well as effects of silver nitrate,ethylene glycol, and nitric acid concentrations on scattering intensity of resonance light.
研究了氯化银胶体的共振光散射光谱特征,讨论了硝酸银用量、乙二醇用量、硝酸用量、时间及加入顺序对共振光散射强度的影响。
2.
Since its simplicity and high sensitivity, resonance light scattering (RLS) technique, developed more than ten years ago, has attracted considerable attentions and become widely applicable in the determination of nucleic acids, proteins, carbohydrates, metallic ions, drugs, surfactants, nanoparticles, bacteria etc.
共振光散射(RLS)分析技术是二十世纪90年代发展起来的,因其简单、灵敏度高而引起了人们的广泛兴趣,已经应用于核酸、蛋白质、糖类等生物大分子、金属离子、药物、表面活性剂、纳米离子和细菌等的分析。
5)  RLS
共振光散射
1.
The resonance light scattering (RLS) technique and UV-Vis absorption spectra were applied to the investigation of the interaction between atrazine and bovine serum albumin(BSA).
用共振光散射光谱(RLS)和紫外-可见电子吸收光谱研究了阿特拉津与牛血清蛋白(BSA)之间的相互作用。
2.
In chapter 1, in order to establish a new method for the determination of trace 4-NP in environmental water samples, 4-NP was derivatized by dansyl chloride (DNS-C1) in base medium, and a resonance light scattering(RLS) system of 4-NP-Na_2CO_3-DNS-Cl was selected.
第一章,利用丹酰氯(DNS-Cl)与4-NP在碱性条件下反应,筛选出测定水样中痕量4-NP的共振光散射(RLS)体系:4-NP-Na_2CO_3-DNS-Cl,研究了该体系的RLS光谱特征,考察了溶液酸度、试剂用量、反应温度、反应时间和共存离子等因素对体系RLS强度的影响,优化了体系反应条件,确立了RLS强度改变值(ΔI_(RLS)=I-I_0)与4-NP浓度的线性关系,以此建立了测定4-NP的RLS新方法。
3.
A method was proposed for the determination of trace naphthols was established based on the reaction of naphthols with potassium bromate and acridine orange(AO) to form ion-association complexes in the dilute H2SO4 medium,which produced of resonance light scattering (RLS) spectra and resulted in the great enhancement of RLS.
建立共振光散射测定水中痕量萘酚新方法。
6)  Resonance light scattering
共振光散射光谱
1.
6), the titan yellow combines proteins to formcomplexes, causing an enhance of resonance light scattering at maximum wavelength of 460nm.
6的酸性介质中,蛋白质与达旦黄形成复合物,使最大波长460 nm的共振光散射光谱得到加强,根据其共振光散射的增强程度,可用于蛋白质的定量测定。
2.
The paper studied the spectra of resonance light scattering (RLS) of nonionic emulsifier (emulsifier OP/water)-silver chloride emulsion system.
研究了乳化剂OP/ 水- 氯化银乳浊体系的共振光散射光谱及其应用, 与其它体系相比, 微乳液体系的增溶能力、增稳效果显著提高。
补充资料:弹性散射和非弹性散射
弹性散射和非弹性散射
elastic scattering and inelastic scattering
    使用粒子间碰撞来研究粒子的性质、相互作用和内部结构的两种情况。如果碰撞过程中两粒子间只有动能的交换,粒子类型、其内部运动状态和数目并无变化,则称为弹性散射或弹性碰撞。如果碰撞过程中除了有动能交换外,粒子的数目、类型和内部状态有所改变或转化为其他粒子,则称为非弹性散射或非弹性碰撞。
   散射过程的研究对于了解许多物理现象具有很重要的意义。例如E.卢瑟福对a粒子被物质散射的研究,提出原子的有核模型;J.弗兰克和G.L.赫兹的电子与原子碰撞实验证实了N.玻尔的定态假设;建造高能加速器就是利用被加速粒子的散射过程来研究粒子的性质、相互作用和相互转化的规律。60年代末到70年代初利用高能轻子对质子和中子的深度非弹性散射的实验,发现质子和中子内部存在点状结构。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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