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Año de publicación: 2024

421 a 430 de 1.848 Resultados

Compound 2_final.cif 7 nov 2024 - Reversible Single-Electron-Transfer to Oxygen in a Stable N‑Heterocyclic Carbene Palladium(I) Metalloradical chemical/x-cif - 1,2 MB - MD5: a918a8c52b8ee5468c8dcfb645304b2a
readme-es_Reversible.txt 7 nov 2024 - Reversible Single-Electron-Transfer to Oxygen in a Stable N‑Heterocyclic Carbene Palladium(I) Metalloradical Texto plano - 4,9 KB - MD5: 30652dbe955674ff9c5a077cc44f998c
PAR_RUE 2022_2023_2024.tab 7 nov 2024 - Biofumigant Species Evaluation (Proy. OPTIMSOIL) Datos tabulares - 7,9 KB
Surface functionalization of graphene oxide with tannic acid: Covalent vs non-covalent approaches 7 nov 2024 - Universidad de Alcalá Sainz-Urruela, Carlos; Vera-López, Soledad; San Andrés, María Paz; Diez-Pascual, Ana María, 2024, "Surface functionalization of graphene oxide with tannic acid: Covalent vs non-covalent approaches", https://doi.org/10.21950/1HRTJH, e-cienciaDatos, V1 Graphene oxide (GO) is gaining a lot of interest in material science, biomedicine and biotechnology due to its outstanding physical properties, combined with its surface functionalization capacity, processability in aqueous media and biocompatibility. However, van der Waals force...
Figure 10_SEM_GO-CO-Cl-g-TA.png 7 nov 2024 - Surface functionalization of graphene oxide with tannic acid: Covalent vs non-covalent approaches Imagen PNG - 35,1 KB - MD5: 1ca44d7a6cf6ec5b5e2bad58c564a52d
Figure 11_Contact angle_GO.png 7 nov 2024 - Surface functionalization of graphene oxide with tannic acid: Covalent vs non-covalent approaches Imagen PNG - 165,0 KB - MD5: 5435fb64c1d468adf52ff21d6d316ed2
Figure 12_Contact angle_GO-TA.png 7 nov 2024 - Surface functionalization of graphene oxide with tannic acid: Covalent vs non-covalent approaches Imagen PNG - 167,8 KB - MD5: b3d3bec295dbdd91fdad35a179ee973c
Figure 13_Contact angle_GO-g-TA.png 7 nov 2024 - Surface functionalization of graphene oxide with tannic acid: Covalent vs non-covalent approaches Imagen PNG - 181,9 KB - MD5: 3585934c62e761e8c17d99e38a3e01bb
Figure 14_Contact angle_GO-COOH-g-TA.png 7 nov 2024 - Surface functionalization of graphene oxide with tannic acid: Covalent vs non-covalent approaches Imagen PNG - 204,7 KB - MD5: 66287172bd689402d1439bda4f1373c2
Figure 1_Scheme of the covalent and non-covalent approaches.jpg 7 nov 2024 - Surface functionalization of graphene oxide with tannic acid: Covalent vs non-covalent approaches Imagen JPEG - 158,8 KB - MD5: 83ccb448333df6aaf197f1496cb370d0

Compound 2_final.cif

7 nov 2024 - Reversible Single-Electron-Transfer to Oxygen in a Stable N‑Heterocyclic Carbene Palladium(I) Metalloradical

chemical/x-cif - 1,2 MB -

readme-es_Reversible.txt

7 nov 2024 - Reversible Single-Electron-Transfer to Oxygen in a Stable N‑Heterocyclic Carbene Palladium(I) Metalloradical

Texto plano - 4,9 KB -

PAR_RUE 2022_2023_2024.tab

7 nov 2024 - Biofumigant Species Evaluation (Proy. OPTIMSOIL)

Datos tabulares - 7,9 KB

Surface functionalization of graphene oxide with tannic acid: Covalent vs non-covalent approaches

7 nov 2024 - Universidad de Alcalá

Sainz-Urruela, Carlos; Vera-López, Soledad; San Andrés, María Paz; Diez-Pascual, Ana María, 2024, "Surface functionalization of graphene oxide with tannic acid: Covalent vs non-covalent approaches", https://doi.org/10.21950/1HRTJH, e-cienciaDatos, V1

Graphene oxide (GO) is gaining a lot of interest in material science, biomedicine and biotechnology due to its outstanding physical properties, combined with its surface functionalization capacity, processability in aqueous media and biocompatibility. However, van der Waals force...

Figure 10_SEM_GO-CO-Cl-g-TA.png

7 nov 2024 - Surface functionalization of graphene oxide with tannic acid: Covalent vs non-covalent approaches

Imagen PNG - 35,1 KB -

Figure 11_Contact angle_GO.png

7 nov 2024 - Surface functionalization of graphene oxide with tannic acid: Covalent vs non-covalent approaches

Imagen PNG - 165,0 KB -

Figure 12_Contact angle_GO-TA.png

7 nov 2024 - Surface functionalization of graphene oxide with tannic acid: Covalent vs non-covalent approaches

Imagen PNG - 167,8 KB -

Figure 13_Contact angle_GO-g-TA.png

7 nov 2024 - Surface functionalization of graphene oxide with tannic acid: Covalent vs non-covalent approaches

Imagen PNG - 181,9 KB -

Figure 14_Contact angle_GO-COOH-g-TA.png

7 nov 2024 - Surface functionalization of graphene oxide with tannic acid: Covalent vs non-covalent approaches

Imagen PNG - 204,7 KB -

Figure 1_Scheme of the covalent and non-covalent approaches.jpg

7 nov 2024 - Surface functionalization of graphene oxide with tannic acid: Covalent vs non-covalent approaches

Imagen JPEG - 158,8 KB -

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