The regression equations between 0B、1B and F center energy band (E(F),eV), lattice energy (U, kJ·mol-1) and standard entropy (Sm0,J·mol-1·K-1) are obtained respectively as.
用其中0B、1B分别与20种碱金属卤化物的F心能带[E(F)]、晶格能(U)、标准熵(Smθ)性质关联,它们的相关系数(R)依次为0。
The corresponding 0,1 index of()~mK was fitted in with the F center energy band,lattice energy,standard entropy and the internuclear distance bond length of alkaline halides.
用mK的0、1阶指数分别与碱金属卤化物F心能带E(F)、晶格能U、标准熵Sθm、核间距R0关联,拟合的回归方程的相关系数(复相关系数)分别为0。
The regression equations between 1F and F center energy band (E(F), eV), lattice energy (U, kJmol-1) and standard entropy (0mSJmol-1K-1) were obtained respectively as following: .
用其中1F分别与20种碱金属卤化物的F心能带[E(F)]、晶格能(U)、标准熵(Smθ)关联,它们的相关系数(R)依次为0。
A fluorometric method for the determination of F~-is developed.
报道了F-的荧光光谱测定法。
In this paper the author (discusses) these compounds from the molecular structure, the electron-induced, the sensing properties of anions and the (selectivity of F~-.
本文就可作为F- 可见光谱分析显色剂的新型超分子化合物 ,从分子结构、电子诱导、对阴离子的显色属性和对F- 选择性等方面做了评述。
First,this paper points out the unusal appearance of the coordination reaction for Fe 3+ and F -.
首先指出了Fe3+与F-配位反应的异常现象 ,然后进行了相应的定性实验和定量实验 ,并对Fe3+与F-反应生成FeF63 -的最佳酸度和沉淀的可能结构进行了理论分析 。
Fluoride was extracted from lime dissolved in H2SO4 solution by Water Vapour Distillation.
目的:建立用离子色谱测定石灰中F-含量的方法。
An ion chromatographic method for the determination of fluoride and chloride in electroplate liquid was proposed.
提出了离子色谱法检测电镀液中F-和Cl-的方法。