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11 |
Die Atomlagenabscheidung von Cobaltphosphid zum Zwecke einer effizienten Wasserspaltung
Enthalten in Angewandte Chemie Bd. 132, 2020, Nr. 39: 17324-17329. 6 S.
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12 |
Atomic Layer Deposition of Cobalt Phosphide for Efficient Water Splitting
Enthalten in Angewandte Chemie / International edition Bd. 59, 2020, Nr. 39: 17172-17176. 5 S.
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13 |
Novel Stable 3D Stainless Steel‐Based Electrodes for Efficient Water Splitting
Enthalten in Advanced materials interfaces Bd. 6, 2019, Nr. 18. 10 S.
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14 |
Light‐Trapping Front Textures for Solar Cells from Tailored Mixtures of Nanospheres: A Numerical Study
Enthalten in Physica status solidi / A / Applications and materials science Bd. 215, 2018, Nr. 24. 7 S.
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15 |
Bifunctional Heterostructure Assembly of NiFe LDH Nanosheets on NiCoP Nanowires for Highly Efficient and Stable Overall Water Splitting
Enthalten in Advanced functional materials Bd. 28, 2018, Nr. 14. 10 S.
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16 |
Fabrication of Nearly‐Hyperuniform Substrates by Tailored Disorder for Photonic Applications
Enthalten in Advanced optical materials Bd. 6, 2018, Nr. 7. 10 S.
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17 |
Integrated low‐temperature process for the fabrication of amorphous Si nanoparticles embedded in Al 2 O 3 for non‐volatile memory application
Enthalten in Physica status solidi / A / Applications and materials science Bd. 213, 2016, Nr. 9: 2446-2451. 6 S.
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18 |
Morphology Dependence on Surface-Enhanced Raman Scattering Using Gold Nanorod Arrays Consisting of Agglomerated Nanoparticles
Enthalten in Plasmonics 21.5.2016: 1-6
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19 |
Stable Silicon Anodes for Lithium‐Ion Batteries Using Mesoporous Metallurgical Silicon
Enthalten in Advanced energy materials Bd. 5, 2015, Nr. 4. 6 S.
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20 |
Optical Materials for Spectral Management
Enthalten in Advanced optical materials Bd. 3, 2015, Nr. 4: 422-422. 1 S.
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