The effects of the buffer solution in treatments after dyeing and printing;
印染后处理中缓冲溶液的作用
Teaching and analysis of calculating pH Value of buffer solution;
缓冲溶液pH值计算的教学与解析
In order to theoretically elucidate the mechanism of absorption and desorption of sulfur dioxide by citrate solution and provide theoretical instruction for experiments and industrial application, the influence of initial pH, distribution coefficient, buffer index and buffer capacity on the properties of the buffer solution were studied in this work.
为了从理论上阐明柠檬酸盐溶液吸收和解吸二氧化硫的机理,为脱硫实验和工业应用提供理论指导,本文应用多元缓冲溶液理论和计算机数值计算方法相结合,通过对柠檬酸盐溶液吸收二氧化硫过程中形成的柠檬酸-柠檬酸钠-亚硫酸多元缓冲溶液体系的研究,从理论上分析和计算了多元缓冲溶液的初始pH值、分布系数、缓冲指数和缓冲容量对缓冲溶液性质的影响。
A 1-D mathematical model,including the electrical potential distribution equation,the buffer concentration equation,as well as the sample electromigration and diffusion equation,is developed through proper simplifications and assumptions to study the sample stacking process in capillary electrophoresis.
本文通过合理的简化和假设,把毛细管中电堆积富集过程中所涉及的主要变量根据电势分布方程、缓冲溶液的浓度方程和样品粒子的质量传输方程进行耦合求解,建立了一个一维的数学模型,并应用有限元的方法对该模型进行了求解。
Sample stacking in capillary electrophoresis can concentrate sample species through the electrical field strength gradient caused by the inhomogeneous buffer concentration field in capillary.
毛细管电泳样品电堆积富集是一种通过缓冲溶液浓度的差异在毛细管中形成电场强度梯度,从而对样品进行浓缩的富集技术。
A 1-D mathematical model including electrical potential distribution equation,buffer concentration equation,as well as sample electromigration and diffusion equation was developed through proper simplification and assumption to study sample stacking process in microfluidic chips.
通过合理的简化和假设,建立了一个包括电势分布方程、缓冲溶液浓度方程和样品粒子电迁移扩散方程的一维数学模型,并应用有限元方法对该模型进行了求解。
Preparation of Ni/YSZ for SOFC anodes by buffer-solution method;
缓冲溶液法制备SOFC用Ni/YSZ负极材料
Zirconia stabilized with 4%~12%(mole fraction) samaria(4~12 SSZ) powders were synthesized by a buffer-solution method.
H2O-NH4HCO3为复合沉淀剂,采用缓冲溶液法制备了含4%~12%(摩尔分数)Sm2O3的ZrO2粉体。
Preparation and characterization of Ni/SDC for SOFC anodes by buffer-solution method;
采用一种改进的均相共沉淀法—缓冲溶液法合成出NiO Ce0。
A solution which resists pH changes is known as a buffer solution.
能够阻止pH值变化的溶液称为缓冲溶液。
Wash the column by adding750μ l buffer PE.
加入750μ的缓冲溶液pe来洗涤管柱。
Determination of Lead(Ⅱ) with Spectrophotometric Flow Injection Complexometric Titration Using Metal ligand Buffers
金属-配位体缓冲溶液流动注射络合滴定铅(Ⅱ)
The Preparation and Characterization of Mesoporous Molecular Sieves AlMCM-41 in Buffer Solutions;
缓冲溶液合成介孔分子筛AlMCM-41及其表征
The effect of buffer concentration in Carbamazepine plasma sample determined by TDX(FPIA)
TDX缓冲溶液浓度对血药浓度测定的影响
Overview of regenerable inorganic buffer solution FGD technology
可再生无机缓冲溶液烟气脱硫技术概述
Resuspend bacterial cell pellet in250μ l buffer P1 and transfer to a microcentrifuge tube.
将沈淀的细菌细胞以250μ的缓冲溶液P1重新悬浮,并换到微量离心管。
The unspecific adsorption of HRP-Avidin was inhibited by adding the calf serum into enzyme buffer.
在稀释酶的缓冲溶液中加入小牛血清可有效地抑制非特异性吸附 .
The Electrochemical Behaviors and the Electronic Properties of Passive Film on Iron in pH8.4 Borate Buffer Solution;
铁在pH8.4硼酸盐缓冲溶液中形成钝化膜的电化学行为和电子性能
Preparation of Magnesium Stabilized Zirconia Nanoparticles by Buffer Solution Precipitation
缓冲溶液沉淀法制备氧化镁稳定氧化锆纳米粉体
soil quality - determination of the potential cation exchange capacity and exchangeable cations using barium chloride solution buffered at ph=8.1
土壤质量-ph值为8-1时利用氯化钡缓冲溶液对可交换阳离子和阳离子交换能力的测定
The electrochemical behaviours of paeonol on different solid electrodes were studied by cyclic voltammetry in alkaline phosphat buffer solution.
研究了在碱性磷酸盐缓冲溶液体系中,丹皮酚在固体电极上的电化学吸附氧化行为。
Effects of hexamethylene tetramine-hydrochloric acid buffer solution on bovine serum albumin structure by AFM
原子力显微镜观测六亚甲基四胺-盐酸缓冲溶液对牛血清白蛋白结构的影响
Points Highlighted in Sulfur Dioxide Monitoring by Hydrochloric Para-rosaniline Spectrophotometry with Formaldehyde as Buffer Solution
甲醛缓冲溶液吸收—盐酸副玫瑰苯胺分光光度法测定大气中二氧化硫要注意的问题
To treat(a solution) with a buffer.
把缓冲液加入(溶液)
neutral buffered potassium iodide methode
中性缓冲碘化钾溶液法
a solution containing a phosphate buffer.
含磷酸盐缓冲剂的溶液。
Study on the Stability of FeO_4~(2-) in Basic Buffer Solution
FeO_4~(2-)在碱性缓冲水溶液中的稳定性
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