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| Home > Publications database > Novel biocompatible Cu2+-containing composite hydrogels based on bacterial cellulose and poly-1-vinyl-1,2,4-triazole > print |
| 001 | 908561 | ||
| 005 | 20230123110631.0 | ||
| 024 | 7 | _ | |a 10.1016/j.smaim.2022.05.002 |2 doi |
| 024 | 7 | _ | |a 2128/31465 |2 Handle |
| 037 | _ | _ | |a FZJ-2022-02685 |
| 082 | _ | _ | |a 610 |
| 100 | 1 | _ | |a Smyslov, Ruslan Yu. |0 0000-0003-3633-4347 |b 0 |e Corresponding author |
| 245 | _ | _ | |a Novel biocompatible Cu2+-containing composite hydrogels based on bacterial cellulose and poly-1-vinyl-1,2,4-triazole |
| 260 | _ | _ | |a Amsterdam |c 2022 |b Elsevier |
| 336 | 7 | _ | |a article |2 DRIVER |
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| 336 | 7 | _ | |a Journal Article |0 0 |2 EndNote |
| 520 | _ | _ | |a Novel composite hydrogels representing interpenetrating polymeric networks (IPN) have been synthesized and consisted of Gluconacetobacter xylinus cellulose (GxC) and poly-1-vinyl-1,2,4-triazole (PVT) with Cu2⁺. The composite hydrogels’ mesostructure has been studied from 1.6 nm to 2.5 μm by small-angle and ultra-small-angle neutron scattering methods. It has been found that IPN complexes have three types of inhomogeneities: GxC, PVT, and PVT complex with Cu2⁺. The amount of the absorbed ions can be tuned as confirmed by electron paramagnetic spectroscopy. Besides, three hierarchy levels of GxC remained in the supramolecular structure of composite hydrogels. Reveling structure formation in these composite hydrogels is essential in fabricating hybrid polymeric materials for regenerative medicine, involving antibacterial or antifungal applications. |
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| 693 | _ | _ | |a Forschungs-Neutronenquelle Heinz Maier-Leibnitz |e KWS-3: Very small angle scattering diffractometer with focusing mirror |f NL3auS |1 EXP:(DE-MLZ)FRMII-20140101 |0 EXP:(DE-MLZ)KWS3-20140101 |5 EXP:(DE-MLZ)KWS3-20140101 |6 EXP:(DE-MLZ)NL3auS-20140101 |x 0 |
| 700 | 1 | _ | |a Kopitsa, Gennady P. |0 P:(DE-HGF)0 |b 1 |
| 700 | 1 | _ | |a Gorshkova, Yulia E. |0 P:(DE-HGF)0 |b 2 |
| 700 | 1 | _ | |a Ezdakova, Ksenia V. |0 P:(DE-HGF)0 |b 3 |
| 700 | 1 | _ | |a Khripunov, Albert K. |0 P:(DE-HGF)0 |b 4 |
| 700 | 1 | _ | |a Migunova, Alexandra V. |0 P:(DE-HGF)0 |b 5 |
| 700 | 1 | _ | |a Tsvigun, Natalia V. |0 P:(DE-HGF)0 |b 6 |
| 700 | 1 | _ | |a Korzhova, Svetlana A. |0 P:(DE-HGF)0 |b 7 |
| 700 | 1 | _ | |a Emel'yanov, Artem I. |0 P:(DE-HGF)0 |b 8 |
| 700 | 1 | _ | |a Pozdnyakov, Alexander S. |0 P:(DE-HGF)0 |b 9 |
| 773 | _ | _ | |a 10.1016/j.smaim.2022.05.002 |g Vol. 3, p. 382 - 389 |0 PERI:(DE-600)3018688-2 |p 382 - 389 |t Smart materials in medicine |v 3 |y 2022 |x 2590-1834 |
| 856 | 4 | _ | |u https://juser.fz-juelich.de/record/908561/files/1-s2.0-S2590183422000217-main.pdf |y OpenAccess |
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