Daniel Malko
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Dataset for the paper: "Using molecular oxygen and Fe-N/C heterogeneous catalysts to achieve Mukaiyama epoxidations via in situ produced organic peroxy acids and acylperoxy radicals" Open
The data in this spreadsheet was used to produce the figures in the paper Authors: M. Gong, Y. Guo, D. Malko, G. J.P. Britovsek, J. Rubio-Garcia, J. Dawson and A. Kucernak Title: Using molecular oxygen and Fe-N/C heterogeneous catalysts to…
Dataset for the paper: "Using molecular oxygen and Fe-N/C heterogeneous catalysts to achieve Mukaiyama epoxidations via in situ produced organic peroxy acids and acylperoxy radicals" Open
The data in this spreadsheet was used to produce the figures in the paper Authors: M. Gong, Y. Guo, D. Malko, G. J.P. Britovsek, J. Rubio-Garcia, J. Dawson and A. Kucernak Title: Using molecular oxygen and Fe-N/C heterogeneous catalysts to…
Using molecular oxygen and Fe–N/C heterogeneous catalysts to achieve Mukaiyama epoxidations <i>via in situ</i> produced organic peroxy acids and acylperoxy radicals Open
Non-precious metal Fe–N/C heterogeneous catalysts efficiently catalyse epoxidation at 25 °C and atmospheric pressure using oxygen as oxidant. The reaction is studied using on-line oxygen consumption, electrochemistry, and UV-vis spectrosco…
Superalkali–Alkalide Interactions and Ion Pairing in Low-Polarity Solvents Open
The nature of anionic alkali metals in solution is traditionally thought to be "gaslike" and unperturbed. In contrast to this noninteracting picture, we present experimental and computational data herein that support ion pairing in alkalid…
Establishing reactivity descriptors for platinum group metal (PGM)-free Fe–N–C catalysts for PEM fuel cells Open
Establishing new reactivity map descriptor of TOF–SD for PGM-free Fe–N–C catalysts ORR activity.
Data used for the paper Daniel Malko, Yanjun Guo, Pip Jones, George Britovsek, and Anthony Kucernak, "Heterogeneous iron containing carbon catalyst (Fe-N/C) for epoxidation with molecular oxygen|", Journal of Catalysis, 2019, DOI:10.1016/j.jcat.2019.01.008 Open
The data in this spreadsheet was used to produce the figures in the paper Daniel Malko, Yanjun Guo, Pip Jones, George Britovsek, and Anthony Kucernak Heterogeneous iron containing carbon catalyst (Fe-N/C) for epoxidation with molecular oxy…
Data used for the paper Daniel Malko, Yanjun Guo, Pip Jones, George Britovsek, and Anthony Kucernak, "Heterogeneous iron containing carbon catalyst (Fe-N/C) for epoxidation with molecular oxygen|", Journal of Catalysis, 2019, DOI:10.1016/j.jcat.2019.01.008 Open
The data in this spreadsheet was used to produce the figures in the paper Daniel Malko, Yanjun Guo, Pip Jones, George Britovsek, and Anthony Kucernak Heterogeneous iron containing carbon catalyst (Fe-N/C) for epoxidation with molecular oxy…
Carbon foams from emulsion-templated reduced graphene oxide polymer composites: electrodes for supercapacitor devices Open
Amphiphilic reduced graphene oxide (rGO) is an efficient emulsifier for water-in-divinylbenzene (DVB) high internal phase emulsions.
Data From The Paper: D. Malko And A. Kucernak, "Kinetic Isotope Effect In The Oxygen Reduction Reaction (Orr) Over Fe-N/C Catalysts Under Acidic And Alkaline Conditions", Electrochemistry Communications,2017, Https://Doi.Org/10.1016/J.Elecom.2017.09.004 Open
Data used to generate the figures in the paper: D. Malko and A. Kucernak, "Kinetic isotope effect in the oxygen reduction reaction (ORR) over Fe-N/C catalysts under acidic and alkaline conditions", Electrochemistry Communications,2017, htt…
Data From The Paper: D. Malko And A. Kucernak, "Kinetic Isotope Effect In The Oxygen Reduction Reaction (Orr) Over Fe-N/C Catalysts Under Acidic And Alkaline Conditions", Electrochemistry Communications,2017, Https://Doi.Org/10.1016/J.Elecom.2017.09.004 Open
Data used to generate the figures in the paper: D. Malko and A. Kucernak, "Kinetic isotope effect in the oxygen reduction reaction (ORR) over Fe-N/C catalysts under acidic and alkaline conditions", Electrochemistry Communications,2017, htt…
Performance of Fe–N/C Oxygen Reduction Electrocatalysts toward NO<sub>2</sub><sup>–</sup>, NO, and NH<sub>2</sub>OH Electroreduction: From Fundamental Insights into the Active Center to a New Method for Environmental Nitrite Destruction Open
Although major progress has recently been achieved through ex situ methods, there is still a lack of understanding of the behavior of the active center in non-precious metal Fe-N/C catalysts under operating conditions. Utilizing nitrite, n…
Data File For Paper: " In Situ Electrochemical Quantification Of Active Sites In Fe–N/C Non-Precious Metal Catalysts.", Nature. Communications, 7, 13285 Doi: 10.1038/Ncomms13285 (2016). Open
The data in this spreadsheet was used to produce the figures in the paper Malko, D., Kucernak, A and Lopes, T, " In situ electrochemical quantification of active sites in Fe–N/C non-precious metal catalysts." Nat. Commun., 7, 13285 doi: 10.…
Electrocatalytic and catalytic oxygen reduction utilising transition metal and heteroatom doped carbon materials Open
The commercialisation of polymer electrolyte fuel cells (PEFCs) is partly delayed due to the use of expensive and scarce precious metal catalysts for the oxygen reduction reaction (ORR). Transition metal and nitrogen containing carbon mate…
Data File For The Paper "Mechanistic Insights Into The Oxygen Reduction Reaction On Metal--N--C Electrocatalysts Under Fuel Cell Conditions", Chemelectrochem , 2016, Doi: 10.1002/Celc.201600354 Open
Dataset for the above paper
Data File For The Paper "Mechanistic Insights Into The Oxygen Reduction Reaction On Metal--N--C Electrocatalysts Under Fuel Cell Conditions", Chemelectrochem , 2016, Doi: 10.1002/Celc.201600354 Open
Dataset for the above paper.
Mechanistic Insights into the Oxygen Reduction Reaction on Metal–N–C Electrocatalysts under Fuel Cell Conditions Open
Three different transition metal‐C‐N catalysts are tested under a range of fuel cell conditions. It is found that common features of the polarisation curve can be explained by a change in electrocatalytic mechanism. Utilising a simple mode…