Developing NiZnFeO ferrite with controlled particle size and morphology through optimized processing conditions of low energy solid state reaction.

Soft magnetic materials, like NiZnFeO, require high temperatures and regulated environments for their manufacture and processing, which can be highly energy intensive. These requirements therefore result in higher production costs and energy consumption. To address this issue, the development of composite materials based on soft magnetic ferrites has become a prominent research area.

High-density polyethylene composites filled with micro- and nano-particles of nickel ferrite: magnetic, mechanical, and thermal properties.

With the increasing demand of new magnetic materials for modern technological application alternatives to conventional magnetic materials, the development of lightweight polymer magnetic composites has become a prominent research area. For this perspective, a new magnetic material was developed using 30 wt% nickel ferrite micro and nanoparticles as fillers for a high-density polyethylene matrix. The development process began with the synthesis of NF-micro and NF-nanoparticles using solid-state and co-precipitation techniques, respectively, followed by extrusion molding and injection molding.

Correction: Correction: Influence of Ni content on structural, magnetocaloric and electrical properties in manganite LaBaSrMnNiO (0 ≤ ≤ 0.1) type perovskites.

[This corrects the article DOI: 10.1039/D3RA90093B.][This corrects the article DOI: 10.

Exploring the Optical and Energetic Properties of a Co(II)-Based Mixed Ligand MOF.

Due to their remarkable properties, including remarkable porosity and extensive surface area, metal-organic frameworks (MOFs) are being investigated for various applications. Herein, we report the first Co(II)-based mixed ligand MOF, formulated Co(HTrz)(d-cam)(μ-OH). Its 3D structure framework is composed of helical chains {[Co(μ-HTrz)]} connected by d-camphorate ligand building blocks and featured as an extended structure in an AB-AB fashion.