Item
Publication
Metal Doped Nanocages and Metal Doped Nanotubes as Effective Catalysts for ORR and OER
- Title
- Metal Doped Nanocages and Metal Doped Nanotubes as Effective Catalysts for ORR and OER
- Abstract
- Here, the abilities of Fe-Si42, Fe-Al21N21, Cu-C60, Cu-B30P30, Fe-SiNT(9, 0), Fe-AlNNT(9, 0), Cu-CNT(6, 0) and Cu-BPNT(6, 0) as nano-catalysts of OER and ORR processes are investigated in alkaline environment. The calculated formation energy of Fe- and Cu-doped nanocages and Fe- and Cu-doped nanotubes (Fe-Si42, Fe-Al21N21, Fe and Cu doped nanotubes) are acceptable values and these structures are stable. The Fe-AlNNT(9, 0) and Cu-BPNT(6, 0) have higher capacity for adsorption of OER/ORR species than other studied catalysts. The *OH removal and *OOH formation on Fe-Si42, Fe-Al21N21, Fe and Cu doped nanotubes are potential-determining steps for OER/ORR processes in alkaline environment. The Fe-AlNNT(9, 0) and Cu-BPNT(6, 0) catalysts for OER/ORR processes have lower over-potential than other studied catalysts. The Fe-AlNNT(9, 0) and Cu-BPNT(6, 0) as effective catalysts are suggested to catalyze the OER/ORR processes in alkaline environment.
- Scientific Type
- غير معروف
- Journal volume
- article in press
- Collaboration type
- مشترك
- Publish Date
- August 16, 2024
- Participated Universities (Publication)
-
Alnoor University
- Scopus status
- In Scopus
- Scopus index year
- 2 024
- Scopus quarter
- 2
- Scopus citation score
- 6.5
- Clarivate status
- In Clarivate
- Clarivate index year
- 2 024
- Clarivate impafact
- 2.799999952
- Pub. Med. status
- Not In PubMed
- Author (Publication)
- قصي حسام عزيز حسن
- Journal (Publication)
- Silicon
- Publisher (Publication)
- Springer Netherlands
- ISSN
- 1876-9918
- Country (Publication)
-
Netherlands
- Country type
- عالمية
- College (Publication)
-
College of Health and Medical Technologies
- Departement (Publication)
-
Department of Anesthesia Techniques
- Resource class
- Publication
- Item sets
- Publications
Part of Metal Doped Nanocages and Metal Doped Nanotubes as Effective Catalysts for ORR and OER