本论文包括下列四部份内容:1、有机锂的紫外光谱;
The present paper involves four aspects as follows: 1. UV spectra of organic lithium;
本文研究了6,6-二烷基富烯与有机锂反应的立体效应。
The steric effects on the reaction of 6, 6-dialkylfulvene with organolithium have been studied.
从一位化学家角度来看,许多有机化合物如二恶英和肉毒毒素都是有毒物质,而像氯化钠和锂等无机化合物则是无害甚至有益的。
For a chemist, many organic compounds like dioxin and botulism toxin are extremely toxic, while inorganic compounds like sodium chloride or lithium are harmless or even beneficial.
锂皂石有机改性后,吸附性能、分散性及比表面积等提高。
After modification by organic compounds, the properties of hectorite, such as adsorption abilities, dispersivity and specific surface are improved.
从有机溶剂、电解质锂盐、添加剂三个方面,论述了锂离子电池的电解液研究进展情况。
From the aspects of organic solvents, lithium salts and additives, research progress of the non-aqueous organic electrolyte for Li-ion batteries is reviewed.
从导电锂盐、有机溶剂和添加剂三个方面详细综述了锂离子电池用有机电解液的研究进展。
In this paper, progress in research on organic liquid electrolytes used in lithium-ion batteries, such as conducting lithium salt, organic solvent and additives, is reviewed.
锂二次电池有机硫化物电极材料包括有机二硫化物、有机多硫化物和硫化聚合物等。
The organic sulfides electrode materials for lithium secondary batteries include organodisulfide, orga- nomultisulfide, sulfurized polymers, etc.
考察柠檬酸等有机小分子抑制剂和其他无机调整剂对锂辉石与绿柱石的抑制作用。
The influence of low molecular organic depressants such as citric acid on the floatability of spodumene and beryl, as well as inorganic modifiers has been studied through flotation tests.
该产品以二氧化锰为正极,金属锂为负极,及有机电解质溶液组成。
The primary battery is composed of manganese dioxide used as a positive pole, metallic lithium uses as a negative electrode and organic electrolyte solution.
锂固体电解质作为全固态锂离子电池的重要组成部分,包括锂有机聚合物固体电解质和锂无机固体电解质两大类。
Li-ion solid electrolytes is the important part of the Li-ion battery. There are two types of Li-ion solid electrolytes: organic polymer solid electrolyte and inorganic solid electrolyte.
公开了一种锂离子电容器,包括正电极、负电极、和作为电解液的非质子有机溶剂型锂盐溶液。
Disclosed is a lithium ion capacitor comprising a positive electrode, a negative electrode, and an aprotic organic solvent solution of a lithium salt as an electrolyte solution.
提出锂盐与其它添加剂的有机结合,可获得更大经济效益和社会效益的构想。
One assumption is put forward that emormous economic and environmental benefits will be acquired when lithium salt…
提出锂盐与其它添加剂的有机结合,可获得更大经济效益和社会效益的构想。
One assumption is put forward that emormous economic and environmental benefits will be acquired when lithium salt…
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