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421 to 430 of 1,851 Results
PGSMc21bis_0m_a.cif
Nov 7, 2024 - Pyridyl-triazole ligands enable in situ generation of a highly active dihydride iridium(III) complex for formic acid dehydrogenation
chemical/x-cif - 2,5 MB - MD5: 9ded985042926b6be3adff12c745b8fe
readme-es_Pyridyl-triazole.txt
Nov 7, 2024 - Pyridyl-triazole ligands enable in situ generation of a highly active dihydride iridium(III) complex for formic acid dehydrogenation
Texto plano - 5,2 KB - MD5: 028d2bbcfc0c67c0f1db8c08f38712f8
Reversible Single-Electron-Transfer to Oxygen in a Stable N‑Heterocyclic Carbene Palladium(I) Metalloradical
Nov 7, 2024 - Universidad de Alcalá
García Yebra, Cristina; Andrés Herranz, Román; Jesús Alcañiz, Ernesto de; Dragomir-Maties, Georgiana; Gómez Sal, Pilar, 2024, "Reversible Single-Electron-Transfer to Oxygen in a Stable N‑Heterocyclic Carbene Palladium(I) Metalloradical", https://doi.org/10.21950/EEBZFH, e-cienciaDatos, V1
Datos correspondientes a medidas de difracción de rayos X
Compound 2_final.cif
Nov 7, 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
Nov 7, 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
Nov 7, 2024 - Biofumigant Species Evaluation (Proy. OPTIMSOIL)
Tabular Data - 7,9 KB
Surface functionalization of graphene oxide with tannic acid: Covalent vs non-covalent approaches
Surface functionalization of graphene oxide with tannic acid: Covalent vs non-covalent approaches
Nov 7, 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 forces among GO layers result in aggregation, yet its dispersion, large-sca...
Figure 10_SEM_GO-CO-Cl-g-TA.png
Figure 10_SEM_GO-CO-Cl-g-TA.png
Nov 7, 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
Figure 11_Contact angle_GO.png
Nov 7, 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
Figure 12_Contact angle_GO-TA.png
Nov 7, 2024 - Surface functionalization of graphene oxide with tannic acid: Covalent vs non-covalent approaches
Imagen PNG - 167,8 KB - MD5: b3d3bec295dbdd91fdad35a179ee973c
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