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Aldehyde separation by polymer-supported oligo(ethyleneimines)
N. Bicak
*
,
B. F. Senkal
*
Corresponding author for this work
Department of Chemistry
Istanbul Technical University
Research output
:
Contribution to journal
›
Article
›
peer-review
40
Citations (Scopus)
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Keyphrases
Aldehydes
100%
Polymer Support
100%
Oligo
100%
Ethyleneimine
100%
Resin
60%
Aliphatic Aldehydes
60%
Sorption
40%
Acid-base
40%
Aromatic Aldehydes
40%
Acid Solution
20%
Sulfonamides
20%
Sorbent
20%
Hydrocarbon Mixtures
20%
Divinylbenzene
20%
Resin Beads
20%
Styrene
20%
Product Form
20%
Diethylenetriamine
20%
Five-membered
20%
Schiff Base
20%
Modified Resin
20%
Triethylenetetramine
20%
Sorption Kinetics
20%
Condensation Products
20%
Salicylaldehyde
20%
Acetaldehyde
20%
Second-order Kinetics
20%
Desorption Kinetics
20%
Benzaldehyde
20%
Loaded Resin
20%
Imidazoline Ring
20%
Aldol Product
20%
Dilute Acid
20%
Aldol Condensation
20%
Sulfamide
20%
Base Hydrolysis
20%
Chemistry
Aldehyde
100%
Aliphatic Aldehyde
42%
Base
28%
Sorbent
14%
Hydrogen
14%
Sulfonamide
14%
Styrene
14%
Diethylenetriamine
14%
Imidazoline
14%
Salicylaldehyde
14%
Kinetic Order
14%
Sulfamide
14%
Benzaldehyde
14%
Aldol Condensation
14%
Desorption
14%
formation
14%
stability
14%
Imine
14%
Enzymatic Hydrolysis
14%
Pharmacology, Toxicology and Pharmaceutical Science
Aziridine
100%
Aldehyde
100%
Base
20%
Sulfonamide
10%
Divinylbenzene
10%
Styrene
10%
Diethylenetriamine
10%
Trientine
10%
Acetaldehyde
10%
Salicylaldehyde
10%
Sulfanilamide
10%
Benzaldehyde
10%
Sorbent
10%
Imidazoline
10%
Imine
10%
Chemical Engineering
Aldehyde
100%
Desorption
10%
Styrene
10%