The Influence of Active Phase Content on Properties and Activity of Nd2O3-Supported Cobalt Catalysts for Ammonia Synthesis

Patkowski, Wojciech; Zybert, Magdalena; Ronduda, Hubert; Gawrońska, Gabriela; Albrecht, Aleksander; Moszyński, Dariusz; Fidler, Aleksandra; Dłuźewski, P.; Raróg‐Pilecka, Wioletta

doi:10.3390/catal13020405

Cited by 8 publications

(1 citation statement)

References 56 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…A drastic decrease in cobalt particle size below 0.5 nm may lead to total activity loss. Patkowski et al also noted such a phenomenon in the studies of Co/Nd 2 O 3 systems with different cobalt loading amounts [146]. The TOF value averaged ca.…”

Section: Cobalt-based Catalystsmentioning

confidence: 81%

Lanthanide Oxides in Ammonia Synthesis Catalysts: A Comprehensive Review

Patkowski,

Zybert,

Ronduda

et al. 2023

Catalysts

Self Cite

View full text Add to dashboard Cite

The production of ammonia through the Haber–Bosch process is a large-scale catalytic industrial endeavour with substantial energy consumption. A key area of energy optimisation for this process involves efforts to ease the synthesis reaction conditions, particularly by reducing the operating pressure. To achieve this goal, new catalysts are designed to function effectively at lower pressures and temperatures. In recent years, reports in the literature concerning including lanthanide oxides in the catalysts’ composition have started appearing more frequently. This review article offers a concise overview of the pivotal role that lanthanide oxides play in the field of ammonia synthesis catalysts. The paper delves into the diverse utilisation of lanthanide oxides, emphasising their role in catalytic systems. The review explores recent advances in the design of catalysts incorporating lanthanide oxides as promoters or support materials, highlighting their impact on enhancing catalyst stability, activity, and operation. Three main groups of catalysts are discussed, where iron, ruthenium, and cobalt constitute the active phase. Insights from recent research efforts are synthesised to provide a comprehensive perspective on the application prospects of lanthanide oxides in ammonia synthesis catalysts.

show abstract

Section: Cobalt-based Catalystsmentioning

confidence: 81%

Lanthanide Oxides in Ammonia Synthesis Catalysts: A Comprehensive Review

Patkowski,

Zybert,

Ronduda

et al. 2023

Catalysts

Self Cite

View full text Add to dashboard Cite

show abstract

Graphene‐Based Material Supports for Ni− and Ru− Catalysts in CO₂ Hydrogenation: Ruling out Performances and Impurity Role

Ebrahim Atakoohi,

Riani,

Spennati

et al. 2024

ChemSusChem

View full text Add to dashboard Cite

Laboratory‐prepared GnP using molten salt, commercial Gnp and reduced graphene oxide (rGO) have been characterized and utilized as support for CO2 hydrogenation catalysts. Ni‐ and Ru‐ catalysts supported over Gnp, commercial Gnp and rGO have been deeply characterized at different stages using Raman, IR, XRD, FE‐SEM‐EDXS, SEM‐EDXS, XPS, and TEM, also addressing carbon loss before reaction and evolved species, thus allowing a better comprehension of the produced materials. Ni and Ru/rGO were inactive while Gnp‐supported ones were active. Ru has been found almost completely selective toward reverse Water Gas Shift to CO, approaching the forecasted thermodynamic equilibrium at 723 K, in the tested conditions (YCO~55%), with an apparent activation energy in the range of 70‐90 kJ/mol. Exhaust catalysts pointed out the presence of sulfur partially linked to the carbon matrix and partially producing the corresponding metal sulfide with the detection of surface oxidized species in the cationic form and adsorbed species as well. The metal‐based nanoparticles displayed a quite narrow size distribution, confirming the promising behavior of these catalytic systems for CO2 utilization.

show abstract

Synthesis of flexible magneto‐electric polyvinyl alcohol composites using hybrid filler particles of carbon quantum dots and cobalt nano for electromagnetic interference shielding application

Suresh,

Kandavalli,

Rajendiran

et al. 2024

Vinyl Additive Technology

View full text Add to dashboard Cite

The main objective of the study is to synthesis and characterization of flexible magneto‐electric Polyvinyl Alcohol (PVA) composites for Electromagnetic Interference (EMI) shielding applications, by incorporating carbon quantum dots extracted from lychee fruit husks and cobalt nanoparticles sourced from Plectranthus amboinicus. Comprehensive mechanical, dielectrical, magnetic, and shielding tests were conducted to assess the performance of these novel materials. The mechanical characteristics of the composites were assessed to gauge their flexibility and robustness. In this regard, PV4 displayed a substantial tensile strength of 68 MPa, while PV6 exhibited an enhanced shore‐D hardness rating of 47. PV6 demonstrates superior dielectric properties, including a higher dielectric constant and a lower loss tangent, which are crucial for optimizing EMI shielding efficiency. When it comes to magnetic characteristics such as magnetization, retentivity, and coercivity, the PV6 composite designation outperforms the other composites. Additionally, PV6 exhibits higher electromagnetic interference (EMI) shielding effectiveness, measuring at approximately 49.8 dB in the E band and 56.5 dB in the F band. Findings demonstrate that the integration of carbon quantum dots and cobalt nanoparticles into the matrix resulted in flexible composites with enhanced mechanical strength. The incorporation of cobalt contributed to notable magnetic properties, increasing the materials' magnetization and retentivity. The tests on electromagnetic interference (EMI) showed that the shielding effectiveness got improved. The composite materials were able to reduce interference from electromagnetic waves in the tested frequency ranges. These flexible magneto‐electric PVA composites, developed using sustainable sources such as lychee fruit husks and Plectranthus amboinicus, exhibit promising potential for EMI shielding applications in diverse industries, including telecommunications, aerospace, and electronics, where reliable interference control is essential for optimal performance and safety.Highlights Cobalt nanoparticles sourced from Plectranthus amboinicus. Carbon quantum dots are prepared from lychee fruit husks via controlled pyrolysis. High tensile strength PVA composites prepared. Highest dielectric constant of 8.2 achieved for composite PV6. Higher wave shielding up to 56.5 dB achieved in “E” band.

show abstract

The Influence of Active Phase Content on Properties and Activity of Nd2O3-Supported Cobalt Catalysts for Ammonia Synthesis

Cited by 8 publications

References 56 publications

Lanthanide Oxides in Ammonia Synthesis Catalysts: A Comprehensive Review

Lanthanide Oxides in Ammonia Synthesis Catalysts: A Comprehensive Review

Graphene‐Based Material Supports for Ni− and Ru− Catalysts in CO₂ Hydrogenation: Ruling out Performances and Impurity Role

Synthesis of flexible magneto‐electric polyvinyl alcohol composites using hybrid filler particles of carbon quantum dots and cobalt nano for electromagnetic interference shielding application

Contact Info

Product

Resources

About

The Influence of Active Phase Content on Properties and Activity of Nd2O3-Supported Cobalt Catalysts for Ammonia Synthesis

Cited by 8 publications

References 56 publications

Lanthanide Oxides in Ammonia Synthesis Catalysts: A Comprehensive Review

Lanthanide Oxides in Ammonia Synthesis Catalysts: A Comprehensive Review

Graphene‐Based Material Supports for Ni− and Ru− Catalysts in CO2 Hydrogenation: Ruling out Performances and Impurity Role

Synthesis of flexible magneto‐electric polyvinyl alcohol composites using hybrid filler particles of carbon quantum dots and cobalt nano for electromagnetic interference shielding application

Contact Info

Product

Resources

About

Graphene‐Based Material Supports for Ni− and Ru− Catalysts in CO₂ Hydrogenation: Ruling out Performances and Impurity Role