1.
Structure and electrochemical behavior of ionic liquid analogue ba..
[1350]
|
2.
含氯化镁的类离子液体结构和物理化学性质
[788]
|
3.
Isopiestic determination of the osmotic coefficients and Pitzer mo..
[611]
|
4.
Ionic liquid analogous formed from magnesium chloride hexahydrate ..
[600]
|
5.
Structure and physico-chemical properties of three analogous ionic..
[600]
|
6.
Structure and electrochemical behavior of ionic liquid analogue ba..
[572]
|
7.
Ag-DDC光度法测砷的研究
[518]
|
8.
甘氨酸-硝酸盐燃烧法制备Ca_(0·3)Sr_(0·7)TiO_3介电质材料
[476]
|
9.
ZnCl_2-ChCl-MgCl_2离子液体的制备、结构及性质研究
[464]
|
10.
Al~(3+)掺杂锂皂石的合成及其性能研究
[453]
|
11.
由盐湖卤水合成球形纳米硅酸镁锂(英文)
[447]
|
12.
Enthalpies of dilution of aqueous Li2B4O7 solutions at 298.15 K an..
[414]
|
13.
水热法控制合成Cu_4(OH)_6SO_4纳米带和CuO纳米片(英文)
[383]
|
14.
DFT study on electronic structure and optical properties of N-dope..
[370]
|
15.
Physicochemical properties of ionic liquid analogue containing mag..
[344]
|
16.
Isopiestic studies of thermodynamic properties and representation ..
[341]
|
17.
Enthalpies of dilution of aqueous mixed solutions of LiCl and Li2B..
[335]
|
18.
Isopiestic studies of synthetic salt lake brine systemLi-Na-K-Mg-C..
[333]
|
19.
Thermodynamic studies by electromotive force method and ion intera..
[332]
|
20.
Thermodynamics and phase diagram of the salt lake brine system at ..
[269]
|
21.
Isopiestic determination of vapor pressures and osmotic coefficien..
[258]
|
22.
以盐湖丰产元素为基的无机材料研究
[258]
|
23.
化学交换法分离锂同位素研究进展
[235]
|
24.
溶剂萃取法分离锂同位素研究进展
[221]
|
25.
THERMODYNAMIC PROPERTIES OF AQUEOUS MIXTURES OF LICL AND LI2SO4 AT..
[217]
|
26.
低品位含钾卤水30℃等温蒸发结晶规律研究
[190]
|
27.
Microstructure and dielectric properties of BaxSr1-xTiO3 ceramics ..
[181]
|
28.
Liquid-liquid extraction separation of lithium isotopes by using r..
[174]
|
29.
Lithium isotope separation by liquid-liquid extraction using ionic..
[154]
|
30.
大浪滩硫酸盐型低品位固体钾盐尾矿矿质分析
[153]
|
31.
Structure and electrochemical behavior of ionic liquid analogue ba..
[153]
|
32.
Synthesis of amine-functionalized MCM-41 and its highly efficient ..
[151]
|
33.
Preparation of halloysite@graphene oxide composite and its applica..
[150]
|
34.
One-step template-free solution route for Cu(OH)(2) nanowires
[149]
|
35.
Physicochemical properties of ionic liquid analogue containing mag..
[144]
|
36.
Preparation and luminescence properties of lanthanide (Eu3+, Sm3+)..
[144]
|
37.
Kinetics and thermodynamics of methylene blue adsorption by cobalt..
[142]
|
38.
Solvent extraction of lithium from aqueous solution using non-fluo..
[141]
|
39.
DFT study on electronic structure and optical properties of N-dope..
[140]
|
40.
New insights into assessing the favorable co-doping dopants with v..
[138]
|
41.
Ionic liquid analogous formed from magnesium chloride hexahydrate ..
[134]
|
42.
Phase Formation and Microstructure of BaTiO3 Ceramics Prepared by ..
[133]
|
43.
Fabrication of Multilayer Pancakelike Basic Magnesium Carbonate
[131]
|
44.
4-硝基苯并-15-冠醚-5液液萃取分离锂同位素
[131]
|
45.
Synthesis and photocatalytic activity of TiO2-hectorite composites
[130]
|
46.
氯化锌/氯化胆碱离子液体单晶合成、表征及性质研究
[128]
|
47.
苯并15-冠-5—离子液体体系多级逆流萃取分离锂同位素研究
[128]
|
48.
Electrochemical deposition of magnesium from analogous ionic liqui..
[127]
|
49.
Equilibrium models and kinetic for the adsorption of methylene blu..
[127]
|
50.
Structure and physico-chemical properties of three analogous ionic..
[122]
|
51.
The extraction of potassium from K-feldspar ore by low temperature..
[121]
|
52.
The Solid-liquid Transformation of Low-grade Solid Potash Deposit ..
[120]
|
53.
Physicochemical properties of ionic liquid analogue containing mag..
[118]
|
54.
Physical-chemical properties of nickel analogs ionic liquid based ..
[118]
|
55.
Formation Process of Cu(2)(OH)(2)CO(3) and CuO Hierarchical Nanost..
[118]
|
56.
Structure and electrochemical behavior of ionic liquid analogue ba..
[117]
|
57.
Synthesis and photocatalytic activity of TiO2-hectorite layer-by-l..
[113]
|
58.
Effect of non-metal elements (B, C, N, F, P, S) mono-doping as ani..
[112]
|
59.
Phase formation and microstructure of BaxSr1-xTiO3 ceramics prepar..
[111]
|
60.
One-step wet chemical method to Cu(OH)(2) nanowires
[104]
|
61.
Investigations of BaxSr1-xTiO3 ceramics and powders prepared by di..
[95]
|
62.
Na~+和K~+对冠醚/离子液体体系锂萃取性能的影响(英文)
[66]
|
63.
Synthesis of amidoxime-decorated 3D cubic mesoporous silica via se..
[65]
|
64.
Separation of lithium isotopes by crown ether-room temperature ion..
[60]
|
65.
Preconcentration of Uranium(VI) from Aqueous Solution by Amidoxime..
[59]
|
66.
冠醚/离子液体体系对锂离子萃取动力学的研究(英文)
[57]
|
67.
Characterization of a Novel Crown Ether System for Lithium Isotope..
[57]
|
68.
Study on behavior of lithium ion in solvent extraction and isotope..
[56]
|
69.
Comparison analysis of wet digestion and stripping methods on reco..
[55]
|
70.
Lithium isotope effect in extraction of lithium chloride by 4-Amin..
[54]
|
71.
Extraction and separation of lithium isotopes by using organic liq..
[54]
|
72.
Separation of lithium isotopes by using solvent extraction system ..
[54]
|
73.
Lithium isotope separation by crown ethers of different nitrogen-c..
[46]
|
74.
Phase formation and microstructure of PbTiO3 and CaTiO3 ceramics p..
[41]
|
75.
Lithium isotopes separation by using benzo-15-crown-5 in eco-frien..
[41]
|
76.
Multi-stage cross-flow separation of lithium isotopes by organic l..
[30]
|
77.
Extraction of lithium from salt lake brines by bis[(trifluoromethy..
[14]
|