Synthesis and advanced applications of transition metal oxides




HIGHLIGHTS
  • What: Volume 6, Issue 5, September-October 2024 Volume 6, Issue 5, September-October 2024 17.
  • Who: ADMIN from the Physics Department, GovtGirls College, Balotra, Rajasthan, India have published the article: International Journal for Multidisciplinary Research (IJFMR), in the Journal: (JOURNAL)
  • How: This Article discusses the synthesis methods crystal structures electrical properties and applications of as well as their involvement in cutting-edge technologies such as electronics optoelectronics energy storage and catalysis. This article discusses the TMO`s synthesis method and its application.
SUMMARY

    Transition metal oxide (TMO) semiconductor materials are an intriguing group of compounds with distinct electrical, magnetic, and optical properties. TMO materials are being investigated for usage in next-generation energy storage technologies such as lithium-ion batteries and supercapacitors. TMO are compounds generated when metals combine with oxygen and have a customizable size-shape-crystal_structure and characteristics, making them useful in a variety of applications. Controlling stoichiometry in TMOs is critical for adapting these materials to specific applications in domains such as electronics, energy, and catalysis. Iron oxide exists in two distinct phases: ferric oxide (Fe2O3) and ferrous-ferric mixed oxide (Fe3O4), with stoichiometry differences affecting electrical conductivity, magnetic behaviour, and value in magnetic storage and biomedical applications. Copper oxides, such as Cupric Oxide(CuO) and Cuprous Oxide (Cu2O), have different properties and applications. Deviations from ideal stoichiometry can generate defects, change the electronic structure, modify optical characteristics, change conductivity, affect stability, and limit the use of certain metal oxides for specific applications. Controlling the stoichiometry of these oxides is critical for modifying their properties for a variety of technological applications. Using solvothermal methods, a range of transition metal oxide semiconductors for photocatalysis, photovoltaic, and electrical devices may be produced. The transition metal oxide semiconductor material is created during this period as a result of chemical interactions between the precursors and the water. To get the desired transition metal oxide semiconductor material, dry the product last. This approach enables the targeted manufacture of transition metal oxides for a variety of applications in electronics, catalysis, and material science. @@

LAY DEFINITIONS
  • Chemical vapor deposition: Chemical vapor deposition is a vacuum deposition method used to produce high quality, high-performance, solid materials. The process is often used in the semiconductor industry to produce thin films
  • Research: Critical and exhaustive investigation or experimentation, having for its aim the discovery of new facts and their correct interpretation, the revision of accepted conclusions, theories, or laws in the light of newly discovered facts, or the practical application of such new or revised conclusions, theories, or laws. (Webster, 3d ed)
  • Energy storage: Energy storage is the capture of energy produced at one time for use at a later time. A device that stores energy is sometimes called an accumulator
  • Crystal structure: In crystallography, crystal structure is a description of the ordered arrangement of atoms, ions or molecules in a crystalline material. Ordered structures occur from the intrinsic nature of the constituent particles to form symmetric patterns that repeat along the principal directions of three-dimensional space in matter

Licence: cc-by-sa

Site reference: https://www.ijfmr.com/papers/2024/5/29889.pdf

DOI reference: https://www.doi.org/10.36948/ijfmr.2024.v06i05.29889

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