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Publication Year: 2025

281 to 290 of 479 Results

CITE May 21, 2025 - Short-range order structures of Ni-based FCC ternary and quaternary alloys Plain Text - 294 B - MD5: d1685c37b596920dc9462f133eade98c For citations
LICENSE May 21, 2025 - Short-range order structures of Ni-based FCC ternary and quaternary alloys Plain Text - 18.2 KB - MD5: 9a788123ae6c2a2d9b2b4cf673e950e7 License of the dataset
migratsioonieelne_statistika.html May 21, 2025 - Short-range order structures of Ni-based FCC ternary and quaternary alloys HTML - 10.3 KB - MD5: f17daa89611aaa7b2ce905b88dcdad9c 2026. aasta migratsiooni käigus varasemast DataDOI süsteemist üle kantud kasutusstatistika kajastab tegevust eelmises DSpace-põhises süsteemis ega näita Dataverse’i uusi kasutusandmeid. Usage statistics carried over from the previous DataDOI system as part of the 2026 migration reflect activity in the former DSpace-based system and do not represent...
README May 21, 2025 - Short-range order structures of Ni-based FCC ternary and quaternary alloys Plain Text - 2.3 KB - MD5: 78b952fb90c1ffaf42d16cbb3d28b0c1 README-file
Hybrid high-performance oxygen reduction reaction Fe–N–C electrocatalyst for anion exchange membrane fuel cells May 20, 2025 - Keemia instituudi andmed Ahmed, Zubair; Akula, Srinu; Kozlova, Jekaterina; Piirsoo, Helle-Mai; Kukli, Kaupo; Kikas, Arvo; Kisand, Vambola; Käärik, Maike; Leis, Jaan; Treshchalov, Alexey; Aruväli, Jaan; Tammeveski, Kaido, 2025, "Hybrid high-performance oxygen reduction reaction Fe–N–C electrocatalyst for anion exchange membrane fuel cells", https://doi.org/10.23673/RE-517, DATADOI, V1 Atomically dispersed active sites and hierarchical porosity in Fe–N–C catalyst materials are essential for efficient oxygen reduction reaction (ORR) electrocatalysis and effective mass transport, respectively. However, the majority of these catalysts fail to deliver outstanding electrocatalytic activity and stumble when used as cathode materials in...
Fig_4a.csv May 20, 2025 - Hybrid high-performance oxygen reduction reaction Fe–N–C electrocatalyst for anion exchange membrane fuel cells Comma Separated Values - 79.8 KB - MD5: 19d7449c8d118ab4b98f24cb36b0da27
fig_4c.csv May 20, 2025 - Hybrid high-performance oxygen reduction reaction Fe–N–C electrocatalyst for anion exchange membrane fuel cells Comma Separated Values - 85.7 KB - MD5: 6bad66cc1f9f0070d9c311ac19d316cf
Fig_4e.csv May 20, 2025 - Hybrid high-performance oxygen reduction reaction Fe–N–C electrocatalyst for anion exchange membrane fuel cells Comma Separated Values - 49.9 KB - MD5: 3c1b7cd2c06b9a34da6783945a3931e4
Fig_5a.csv May 20, 2025 - Hybrid high-performance oxygen reduction reaction Fe–N–C electrocatalyst for anion exchange membrane fuel cells Comma Separated Values - 41.4 KB - MD5: dd53b4f2e025be537b6b745661941d7b
Fig_5b.csv May 20, 2025 - Hybrid high-performance oxygen reduction reaction Fe–N–C electrocatalyst for anion exchange membrane fuel cells Comma Separated Values - 193.8 KB - MD5: 29c0e5acf32c29fcbe88447776f41237

CITE

May 21, 2025 - Short-range order structures of Ni-based FCC ternary and quaternary alloys

Plain Text - 294 B -

For citations

LICENSE

May 21, 2025 - Short-range order structures of Ni-based FCC ternary and quaternary alloys

Plain Text - 18.2 KB -

License of the dataset

migratsioonieelne_statistika.html

May 21, 2025 - Short-range order structures of Ni-based FCC ternary and quaternary alloys

HTML - 10.3 KB -

2026. aasta migratsiooni käigus varasemast DataDOI süsteemist üle kantud kasutusstatistika kajastab tegevust eelmises DSpace-põhises süsteemis ega näita Dataverse’i uusi kasutusandmeid. Usage statistics carried over from the previous DataDOI system as part of the 2026 migration reflect activity in the former DSpace-based system and do not represent...

README

May 21, 2025 - Short-range order structures of Ni-based FCC ternary and quaternary alloys

Plain Text - 2.3 KB -

README-file

Hybrid high-performance oxygen reduction reaction Fe–N–C electrocatalyst for anion exchange membrane fuel cells

May 20, 2025 - Keemia instituudi andmed

Ahmed, Zubair; Akula, Srinu; Kozlova, Jekaterina; Piirsoo, Helle-Mai; Kukli, Kaupo; Kikas, Arvo; Kisand, Vambola; Käärik, Maike; Leis, Jaan; Treshchalov, Alexey; Aruväli, Jaan; Tammeveski, Kaido, 2025, "Hybrid high-performance oxygen reduction reaction Fe–N–C electrocatalyst for anion exchange membrane fuel cells", https://doi.org/10.23673/RE-517, DATADOI, V1

Atomically dispersed active sites and hierarchical porosity in Fe–N–C catalyst materials are essential for efficient oxygen reduction reaction (ORR) electrocatalysis and effective mass transport, respectively. However, the majority of these catalysts fail to deliver outstanding electrocatalytic activity and stumble when used as cathode materials in...

Fig_4a.csv

May 20, 2025 - Hybrid high-performance oxygen reduction reaction Fe–N–C electrocatalyst for anion exchange membrane fuel cells

Comma Separated Values - 79.8 KB -

fig_4c.csv

May 20, 2025 - Hybrid high-performance oxygen reduction reaction Fe–N–C electrocatalyst for anion exchange membrane fuel cells

Comma Separated Values - 85.7 KB -

Fig_4e.csv

May 20, 2025 - Hybrid high-performance oxygen reduction reaction Fe–N–C electrocatalyst for anion exchange membrane fuel cells

Comma Separated Values - 49.9 KB -

Fig_5a.csv

May 20, 2025 - Hybrid high-performance oxygen reduction reaction Fe–N–C electrocatalyst for anion exchange membrane fuel cells

Comma Separated Values - 41.4 KB -