Add to ORKGThe ionically crosslinked membranes were prepared of chitosan (Ch) and trisodium citrate (Ch/CIT). The characteristics of the state of water in crosslinked and uncrosslinked chitosan membranes with different water content was performed by differential scanning calorimetry (DSC). The kinetics of water swelling in Ch and Ch/CIT membranes were also studied. Conclusions concerning effect of ionic crosslinking on the state of water in chitosan hydrogel membranes were drawn out. Results shows that freezable and non-freezable water exist in analysed Ch and Ch/CIT membranes, while there are variations in the amount of non-freezing bound water in these polymers
In this study, the electrical properties of chitosan membrane in different types of electrolytes wer...
Chitosan membranes can undergo a glass transition at room temperature triggered by hydration. The me...
Chitosan (CS), a derivative of the naturally occurring biopolymer chitin, is an attractive material ...
Modified chitosan hydrogel membranes were prepared using glutaraldehyde (GA) and sodium citrate (NaC...
Physically crosslinked membranes were prepared by treating chitosan (Ch) with pentasodium tripolypho...
Ionically crosslinked chitosan membranes were prepared and their swelling behaviour was analysed. Lo...
Chemically and physically crosslinked chitosan hydrogel membranes were obtained by treatment of chit...
Ionically crosslinked chitosan membranes were prepared and their density was determined using modifi...
Unmodified (Ch) and ionically crosslinked with sodium tripolyphosphate (Ch/TPP) chitosan membranes w...
In this study, the structure of hydrogel chitosan membranes was investigated. To determine the struc...
Ionically crosslinked one‑component chitosan (Ch), two‑component chitosan/sodium alginate (Ch/NaAlg)...
The thermal degradation behaviour of uncrosslinked and crosslinked chitosan membranes were studied b...
Chitosan membranes were obtained by a casting/solvent evaporation method and cross-linking with sodi...
Chitosan membranes, aimed at biomedical applications, were prepared by a solvent casting methodology...
The swelling behavior of chitosan hydrogels in ionic liquid−water binary systems was studied using h...
In this study, the electrical properties of chitosan membrane in different types of electrolytes wer...
Chitosan membranes can undergo a glass transition at room temperature triggered by hydration. The me...
Chitosan (CS), a derivative of the naturally occurring biopolymer chitin, is an attractive material ...
Modified chitosan hydrogel membranes were prepared using glutaraldehyde (GA) and sodium citrate (NaC...
Physically crosslinked membranes were prepared by treating chitosan (Ch) with pentasodium tripolypho...
Ionically crosslinked chitosan membranes were prepared and their swelling behaviour was analysed. Lo...
Chemically and physically crosslinked chitosan hydrogel membranes were obtained by treatment of chit...
Ionically crosslinked chitosan membranes were prepared and their density was determined using modifi...
Unmodified (Ch) and ionically crosslinked with sodium tripolyphosphate (Ch/TPP) chitosan membranes w...
In this study, the structure of hydrogel chitosan membranes was investigated. To determine the struc...
Ionically crosslinked one‑component chitosan (Ch), two‑component chitosan/sodium alginate (Ch/NaAlg)...
The thermal degradation behaviour of uncrosslinked and crosslinked chitosan membranes were studied b...
Chitosan membranes were obtained by a casting/solvent evaporation method and cross-linking with sodi...
Chitosan membranes, aimed at biomedical applications, were prepared by a solvent casting methodology...
The swelling behavior of chitosan hydrogels in ionic liquid−water binary systems was studied using h...
In this study, the electrical properties of chitosan membrane in different types of electrolytes wer...
Chitosan membranes can undergo a glass transition at room temperature triggered by hydration. The me...
Chitosan (CS), a derivative of the naturally occurring biopolymer chitin, is an attractive material ...