Davide Ripepi
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Explore the profile of Davide Ripepi including associated specialties, affiliations and a list of published articles.
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11
Citations
34
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Recent Articles
1.
Iglesias van Montfort H, Li M, Irtem E, Abdinejad M, Wu Y, Pal S, et al.
Nat Commun
. 2023 Oct;
14(1):6579.
PMID: 37852966
Electrochemical reduction of CO presents an attractive way to store renewable energy in chemical bonds in a potentially carbon-neutral way. However, the available electrolyzers suffer from intrinsic problems, like flooding...
2.
Izelaar B, Ripepi D, van Noordenne D, Jungbacker P, Kortlever R, Mulder F
ACS Energy Lett
. 2023 Aug;
8(8):3614-3620.
PMID: 37588017
No abstract available.
3.
Ripepi D, Schreuders H, Mulder F
ChemSusChem
. 2023 Jul;
16(13):e202300895.
PMID: 37415327
Invited for this month's cover is the group of Prof. Fokko M. Mulder at the Delft University of Technology. The image on the cover shows how in the NH synthesis...
4.
Ripepi D, Schreuders H, Mulder F
ChemSusChem
. 2023 May;
16(13):e202300460.
PMID: 37130354
Ammonia is an indispensable commodity and a potential carbon free energy carrier. The use of H permeable electrodes to synthesize ammonia from N , water and electricity, provides a promising...
5.
Izelaar B, Ripepi D, Asperti S, Dugulan A, Hendrikx R, Bottger A, et al.
ACS Catal
. 2023 Feb;
13(3):1649-1661.
PMID: 36776385
The electrochemical dinitrogen reduction reaction (NRR) has recently gained much interest as it can potentially produce ammonia from renewable intermittent electricity and replace the Haber-Bosch process. Previous literature studies report...
6.
Ripepi D, Izelaar B, van Noordenne D, Jungbacker P, Kolen M, Karanth P, et al.
ACS Catal
. 2022 Nov;
12(21):13781-13791.
PMID: 36366765
Hydrogen permeable electrodes can be utilized for electrolytic ammonia synthesis from dinitrogen, water, and renewable electricity under ambient conditions, providing a promising route toward sustainable ammonia. The understanding of the...
7.
Abdinejad M, Irtem E, Farzi A, Sassenburg M, Subramanian S, Iglesias van Montfort H, et al.
ACS Catal
. 2022 Jul;
12(13):7862-7876.
PMID: 35799769
The electrochemical reduction of carbon dioxide (CO) to value-added materials has received considerable attention. Both bulk transition-metal catalysts and molecular catalysts affixed to conductive noncatalytic solid supports represent a promising...
8.
Sassenburg M, de Rooij R, Nesbitt N, Kas R, Chandrashekar S, Firet N, et al.
ACS Appl Energy Mater
. 2022 Jun;
5(5):5983-5994.
PMID: 35647494
Continued advancements in the electrochemical reduction of CO (CORR) have emphasized that reactivity, selectivity, and stability are not explicit material properties but combined effects of the catalyst, double-layer, reaction environment,...
9.
Kolen M, Ripepi D, Smith W, Burdyny T, Mulder F
ACS Catal
. 2022 May;
12(10):5726-5735.
PMID: 35633897
The nitrogen reduction reaction (NRR) is a promising pathway toward the decarbonization of ammonia (NH) production. However, unless practical challenges related to the detection of NH are removed, confidence in...
10.
Ripepi D, Zaffaroni R, Kolen M, Middelkoop J, Mulder F
Sustain Energy Fuels
. 2022 May;
6(8):1945-1949.
PMID: 35520473
Rapid advances in electrocatalytic ammonia synthesis are impeded by laborious detection methods commonly used in the field and by constant risk of external contaminations, which generates misleading false positives. We...