Rok 2024

• CuMn1.7Fe0.3O4 – RE2O3 (RE=Y, Gd) bilayers as protective interconnect coatings for Solid Oxide Cells

  Publikacja

  • B. Lemieszek
  • J. Ignaczak
  • K. Lankauf
  • P. Błaszczak
  • M. Bik
  • M. Zajac
  • M. Sitarz
  • P. Jasiński
  • S. Molin

  - JOURNAL OF THE EUROPEAN CERAMIC SOCIETY - Rok 2024

  Efficient replacement of materials based on critical elements such as cobalt is one of the greatest challenges facing the field of solid oxide cells. New generation materials, free of cobalt show potential to replace conventional materials. However, these materials are characterized by poor ability to block chromium diffusion. This article described the study of CuMn1.7Fe0.3O4 (CMFO) spinel combined with single metal oxide (Y2O3...

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• Enhanced Electrochemical Performance of MnCo1.5Fe0.5O4Spinel for Oxygen Evolution Reaction through Heat Treatment

  Publikacja

  • K. Lankauf
  • B. Lemieszek
  • K. Górnicka
  • P. Błaszczak
  • M. Zając
  • P. Jasiński
  • S. Molin

  - ENERGY & FUELS - Rok 2024

  MnCo1.5Fe0.5O4 spinel oxide was synthesized using the sol−gel technique, followed by heat treatment at various temperatures (400, 600, 800, and 1000 °C). The prepared materials were examined as anode electrocatalysts for watersplitting systems in alkaline environments. Solid-state characterization methods, such as powder X-ray diffraction and X-ray absorption spectroscopy (XAS), were used to analyze the materials’ crystallographic...

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Rok 2023

• Fe-modified Mn2CuO4 spinel oxides: coatings based on abundant elements for solid oxide cell interconnects

  Publikacja

  • J. Ignaczak
  • L. Zeng
  • D. F. Sanchez
  • M. Makowska
  • K. Górnicka
  • K. Lankauf
  • J. Karczewski
  • P. Jasiński
  • S. Molin

  - INTERNATIONAL JOURNAL OF HYDROGEN ENERGY - Rok 2023

  The current state of the art steel interconnect coating materials are based on critical raw material - Co-oxide spinels. Replacing Co-oxide spinels with alternative, abundant materials can reduce the dependence on the critical raw materials. Cobalt-free coatings with the general formula Mn2-xCuFexO4, where x = 0, 0.1, 0.3, were electrophoretically deposited on a ferritic stainless-steel support and evaluated. Prior to deposition,...

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• Tailoring a low-energy ball milled MnCo2O4 spinel catalyst to boost oxygen evolution reaction performance

  Publikacja

  • S. Pawłowska
  • K. Lankauf
  • P. Błaszczak
  • J. Karczewski
  • K. Górnicka
  • G. Cempura
  • P. Jasiński
  • S. Molin

  - APPLIED SURFACE SCIENCE - Rok 2023

  The development of cost-efficient oxygen evolution reaction (OER) catalysts is one of the most important tasks facing modern techniques for hydrogen production. In this work, for the first time, a low-energy ball milling process of MnCo2O4 (MCO) spinel powders, with a mechanical modification time exceeding 1 day was used. After 6 days of ball-milling, the obtained overpotential of the electrocatalyst reached the value of 375 mV...

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• Tuning of eg electron occupancy of MnCo2O4 spinel for oxygen evolution reaction by partial substitution of Co by Fe at octahedral sites

  Publikacja

  • K. Lankauf
  • K. Górnicka
  • P. Błaszczak
  • J. Karczewski
  • J. Ryl
  • G. Cempura
  • M. Zając
  • M. Bik
  • M. Sitarz
  • P. Jasiński
  • S. Molin

  - INTERNATIONAL JOURNAL OF HYDROGEN ENERGY - Rok 2023

  To study the effect of partial Co substitution by Fe in the B site of MnCo2O4 spinel on its physicochemical and electrochemical properties, a series of MnCo2-xFexO4 powders (x=0.125; 0.250; 0.500; 0.750; 1.000) were synthesized by means of the sol-gel method. The produced powders were characterized by powder X ray diffraction (pXRD), scanning and transmission electron microscopy (SEM & TEM) coupled with energy dispersive spectroscopy...

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Rok 2022

• Tetrahedrally modified MnMe0.1Co1.9O4 (Me = Zn, Mg, Li) spinels for non-enzymatic glucose sensing

  Publikacja

  • K. Lankauf
  • K. Ostrowska
  • K. Górnicka
  • J. Karczewski
  • P. Jasiński
  • S. Molin

  - MATERIALS LETTERS - Rok 2022

  In this work, tetrahedrally modified MnMe0.1Co1.9O4 (Me = Zn, Mg, Li) spinels were prepared via the sol–gel synthesis method with subsequent ball-milling fragmentation. The prepared samples were evaluated as glucose–sensing catalyst. The reference MnCo2O4 spinel exhibited a sensitivity of 49 µA mM−1 cm−2 and a nonlinearity error of 5.2% in the response range from 0.02 to 1 mM. The partial substitution of cobalt in the reference...

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Rok 2021

• The effect of Fe on chemical stability and oxygen evolution performance of high surface area SrTix-1FexO3-δ mixed ionic-electronic conductors in alkaline media

  Publikacja

  • K. Lankauf
  • A. Mroziński
  • P. Błaszczak
  • K. Górnicka
  • J. Ignaczak
  • M. S. Łapiński (dawniej: M. Łapiński)
  • J. Karczewski
  • G. Cempura
  • P. Jasiński
  • S. Molin

  - INTERNATIONAL JOURNAL OF HYDROGEN ENERGY - Rok 2021

  Development of environmentally friendly, high performing oxygen evolution reaction (OER) catalysts is an important research challenge. In this work, iron doped strontium titanates with a general formula SrTi1-xFexO3-δ (x = 0.35, 0.50, 0.70, 0.90, and 1.00) denoted as STFx, were synthesized via a solid state reaction technique and characterized in terms of oxygen evolution reaction electrocatalysis in an alkaline electrolyte (0.1...

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Rok 2020

• MnxCo3-xO4 spinel oxides as efficient oxygen evolution reaction catalysts in alkaline media

  Publikacja

  • K. Lankauf
  • K. Cysewska
  • J. Karczewski
  • A. D. Mielewczyk-Gryń (dawniej: A. Mielewczyk-Gryń)
  • K. Górnicka
  • G. Cempura
  • M. Chen
  • P. Jasiński
  • S. Molin

  - INTERNATIONAL JOURNAL OF HYDROGEN ENERGY - Rok 2020

  The design of efficient electrocatalysts for oxygen evolution reaction (OER) is an essential task in developing sustainable water splitting technology for the production of hydrogen. In this work, manganese cobalt spinel oxides with a general formula of MnxCo3-xO4 (x=0, 0.5, 1, 1.5, 2) were synthesised via a soft chemistry method. Non-equilibrium mixed powder compositions were produced, resulting in high electrocatalytic activity....

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