Chemistry
Cesium
100%
Calix[4]arene
84%
Solvent Extraction
72%
Cesium Ion
47%
Ion Exchange
39%
Radioactive Waste
39%
Calixarene
33%
Sodium Hydroxide
26%
Sodium
26%
1,2-Dichloroethane
25%
Crown Ether
25%
Octanol
23%
formation
22%
K
21%
Macrocycle
21%
Phase Composition
20%
Sulfate
19%
High Level Radioactive Waste
17%
Aqueous Solution
17%
Hydrogen Bonding
15%
Nitric Acid
15%
18-Crown-6
14%
Radioisotope
13%
Solvation
12%
Table Salt
12%
acidity
12%
Cesium Ion
11%
Ionophore
11%
Metal Ion
11%
Crystal Structure
9%
solvent polarity
9%
Strontium
9%
Complexation
9%
Francium Ion
9%
Rubidium
9%
Sodium Salt
9%
Metal Organic Framework
9%
Nucleoside
9%
Glycolic Acid
9%
Ionic Liquid
9%
Curium
9%
Inductively Coupled Plasm Mass Spectrometry (ICPMS)
9%
Americium 241
9%
Germanium
9%
Gamma Spectroscopy
9%
Monte Carlo Method
9%
Nanoparticle
9%
Actinoid Atom
9%
Sodium Nitrate
9%
Chemistry
7%
Lipophilicity
7%
Chemical Element
7%
Ion Chromatography
7%
Chloroform
7%
Ion Pair
7%
Enzymatic Hydrolysis
7%
Alkali Metal
5%
Chemical Engineering
Cesium
69%
Solvent Extraction
52%
Polycyclic Aromatic Hydrocarbon
32%
Phenol
28%
Titanium Dioxide
19%
Alkali Metal
15%
Rare Earth Element
14%
Radioisotope
13%
Crown Ether
12%
Nitric Acid
11%
Chlorine Compounds
9%
Francium
9%
Metal-Organic Frameworks
9%
Nanoparticle
9%
Praseodymium
9%
Samarium
9%
Promethium
9%
Actinide
9%
Neodymium
9%
Lanthanum
9%
Flocculation
9%
Perovskites
9%
Anion Exchange
9%
Gelation
9%
Uranium Carbide
9%
Engineering
Oak Ridge
41%
Phase Composition
33%
Solvent Extraction
19%
Fuel Rod
13%
High-Level Waste
12%
Inductively Coupled Plasma
11%
Burnup
10%
Extraction System
9%
Spent Nuclear Fuel
9%
Spent Fuels
9%
Mass Distribution
9%
Fission Product
9%
Maximum Likelihood
9%
Extraction Process
9%
Effluent Stream
9%
Spectral Decomposition
9%
Cross Section
9%
High Resolution
9%
Production Alternative
9%
Clinical Application
9%
Source Term
9%
Solid Solutions
9%
Gamma Ray
9%
Ion Chromatography
7%
Performed Measurement
6%
Dilution
6%