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NOU-2015.zip
Nov 27, 2023 - Norges offentlige utredninger (NOU) 1998-2017
ZIP Archive - 4.8 MB - MD5: a36270d5a0b7a7405c9a95fc6707c7b0
NOU-2016.zip
Nov 27, 2023 - Norges offentlige utredninger (NOU) 1998-2017
ZIP Archive - 6.7 MB - MD5: 6b8e7e4c083d7e7eea63ae191c32be29
NOU-2017.zip
Nov 27, 2023 - Norges offentlige utredninger (NOU) 1998-2017
ZIP Archive - 4.7 MB - MD5: 7dc06817062ddc0d4bd70f4864f4ffd9
NOU-register 1998-2017.xlsx
Nov 27, 2023 - Norges offentlige utredninger (NOU) 1998-2017
MS Excel Spreadsheet - 69.2 KB - MD5: eaa4e456a0a322806b3386fe6eec2a10
Conductive Metal-covalent Organic Frameworks as Novel Catalytic Platform for Reduction of Nitrate to Ammonia
Nov 24, 2023 - University of South-Eastern Norway
Huang Hao, 2023, "Conductive Metal-covalent Organic Frameworks as Novel Catalytic Platform for Reduction of Nitrate to Ammonia", https://doi.org/10.23642/USN.24235267, DataverseNO, V1
DATASET MIGRATED FROM FIGSHARE: With their abundant metal sites, ordered porous structure and great conductivity, conductive metal-organic frameworks display many excellent single-atom electrocatalytic activities, superior to conventional inorganic nanostructure. However, their electrochemical application is greatly limited by the fragile coordinat...
Figure 1.jpg
Nov 24, 2023 - Conductive Metal-covalent Organic Frameworks as Novel Catalytic Platform for Reduction of Nitrate to Ammonia
JPEG Image - 4.5 MB - MD5: fd8172d1c7f27cff373b200f5eb2c86b
Figure 1.jpg
Figure 2.jpg
Nov 24, 2023 - Conductive Metal-covalent Organic Frameworks as Novel Catalytic Platform for Reduction of Nitrate to Ammonia
JPEG Image - 5.2 MB - MD5: ceba49b39c4a9dd4bd2acb56f86f35da
Figure 2.jpg
Figure 3.jpg
Nov 24, 2023 - Conductive Metal-covalent Organic Frameworks as Novel Catalytic Platform for Reduction of Nitrate to Ammonia
JPEG Image - 9.5 MB - MD5: 82bc1f1a195511d7eb95b2e29a7136bc
Figure 3.jpg
Figure 4.jpg
Figure 4.jpg
Nov 24, 2023 - Conductive Metal-covalent Organic Frameworks as Novel Catalytic Platform for Reduction of Nitrate to Ammonia
JPEG Image - 2.8 MB - MD5: c2e804bc96a51ce6f72a19df790e90b4
Figure 4.jpg
Figure 5.jpg
Figure 5.jpg
Nov 24, 2023 - Conductive Metal-covalent Organic Frameworks as Novel Catalytic Platform for Reduction of Nitrate to Ammonia
JPEG Image - 2.2 MB - MD5: 4c0064b7d979eb67baa623e6408b1d8f
Figure 5.jpg
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