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Keyphrases
Anion Exchange
100%
Natural Freshwater
100%
Trioctylamine
100%
Ion Exchange Resin
66%
Well Water
66%
Flour
33%
Nitric Acid
33%
SO42-
33%
Optical Performance
33%
Dual Functionality
33%
Low Efficiency
33%
River Water
33%
Chloromethyl
33%
Teflon
33%
Resin
33%
Tap Water
33%
Amination
33%
Separate Detection
33%
Water Type
33%
Copolymerization
33%
Tert
33%
Radiochemical Separation
33%
99Tc
33%
Scintillation
33%
Cr2O72-
33%
Maximum Contaminant Level
33%
Freshwater Samples
33%
1,3,4-oxadiazole
33%
Chemical Performance
33%
Counting Efficiency
33%
Radiometric Assay
33%
Vinyl Monomer
33%
Chloromethylstyrene
33%
Pertechnetate
33%
Functional Resin
33%
Common Anions
33%
Styrene-divinylbenzene
33%
Uptake Efficiency
33%
Selective Determination
33%
Limit of Detection
33%
Online Quantification
33%
INIS
fresh water
100%
sensors
100%
resins
100%
ion exchange
100%
efficiency
75%
trioctylamine
75%
performance
50%
water
50%
levels
25%
mixtures
25%
flour
25%
particles
25%
uptake
25%
loading
25%
rivers
25%
anions
25%
drinking water
25%
packing
25%
detection limits
25%
teflon
25%
styrene
25%
water wells
25%
amination
25%
copolymerization
25%
scintillations
25%
radiochemistry
25%
technetium 99
25%
radiochemical analysis
25%
oxadiazoles
25%
divinylbenzene
25%
pertechnetates
25%
vinyl monomers
25%
Chemistry
Dioctylamine
100%
Ion Exchange
100%
Anion Exchange Resin
66%
Radiometry
33%
Copolymerization
33%
Poly(tetrafluoroethylene)
33%
Radiochemicals
33%
Styrene
33%
Monomer
33%
1,3,4-oxadiazole
33%
Well Water
33%
amination
33%
Agricultural and Biological Sciences
Anion Exchange Resin
100%
River Water
50%
Detection Limit
50%
Maximum Contaminant Level
50%
Tap Water
50%
Polytetrafluoroethylene
50%
Chemical Engineering
Anion Exchange
100%
Anion Exchange Resin
100%
Polytetrafluoroethylene
50%
Styrene
50%
Copolymerization
50%