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Topic Review
Thin-Film Fabrication for Low-Temperature Solid Oxide Fuel Cells
Solid oxide fuel cells (SOFCs) are amongst the most widely used renewable alternative energy systems with near-zero carbon emission, high efficiency, and environment-friendly features. However, the high operating temperature of SOFCs is still considered a major challenge due to several issues regarding the materials’ corrosion, unwanted reactions between layers, etc. Thus, low-temperature SOFCs (LT-SOFCs) have gained significant interest during the past decades. Despite the numerous advantages of LT-SOFCs, material selection for each layer is of great importance as the common materials have not shown a desirable performance so far. In addition to the selection of the materials, fabrication techniques have a great influence on the properties of the SOFCs. As SOFCs with thinner layers showed lower polarisation resistance, especially in the electrolyte layer, different thin-film fabrication methods have been employed, and their effect on the overall performance of SOFCs has been evaluated.
  • 531
  • 23 Aug 2023
Topic Review
Oxidation Protection of High-Temperature Oxidation-Resistant Coatings
Molybdenum and its alloys, with high melting points, excellent corrosion resistance and high temperature creep resistance, are a vital high-temperature structural material. However, the poor oxidation resistance at high temperatures is a major barrier to their application. 
  • 521
  • 28 Feb 2022
Topic Review
Polymer-Derived Ceramics Technology
Ceramics have become indispensable materials for a wide range of industrial applications due to their excellent properties.
  • 517
  • 01 Dec 2022
Topic Review
Sodiophilicity Regulation in Metallic Na Anodes
The Na metal anode is the essential component for room-temperature sodium-metal batteries (SMBs), such as Na-S, Na-Se, and Na-O2. However, the practical application of liquid-electrolyte-based SMBs has been troubled by extensive volume change and mossy/dendritic growth during Na electrodeposition. In this regard, the sodiophilicity (of the solid electrolytes or 2D/3D Na hosts) has been widely deemed vital for achieving stable Na metal anodes in either solid- or liquid-electrolyte-based SMBs, and many strategies have emerged to improve Na wettability and stabilize Na metal anodes for the three types of batteries.
  • 464
  • 11 Jul 2022
Topic Review
Metal Oxide Semiconductor Gas Sensors with Different Morphologies
There is an increasing need for the development of low-cost and highly sensitive gas sensors for environmental, commercial, and industrial applications in various areas, such as hazardous gas monitoring, safety, and emission control in combustion processes. Considering this, resistive-based gas sensors using metal oxide semiconductors (MOSs) have gained special attention owing to their high sensing performance, high stability, and low cost of synthesis and fabrication. The relatively low final costs of these gas sensors allow their commercialization; consequently, they are widely used and available at low prices. Different morphologies of metal oxide gas sensors are discussed.
  • 442
  • 04 May 2023
Topic Review
Extraction of Alkalis from Amorphous Silicate Materials
The main building materials widely used worldwide are those based on cement, glass, and ceramics. Taking into account the fact that the raw material base for the production of these materials is narrowing, and the quality of raw materials is declining, methods are being used to modify the structure of silicate materials in order to improve their properties when using cheaper raw materials and industrial waste, which should help reduce the energy intensity of their production. One of the ways to reduce energy consumption is the use of alkaline components in the chemical composition of silicate materials, which makes it possible to reduce the temperature of their synthesis. However, the presence of alkalis in the material at the stage of the operation is undesirable since it contributes, for example, to a decrease in the chemical resistance of silicate glasses or leads to the phenomenon of alkaline corrosion in cement products. 
  • 424
  • 22 Jun 2022
Topic Review
Crystal Structure of GeFe2O4
The brunogeierite GeFe2O4 is a rare mineral of germanium, with a normal spinel structure and amazing functional properties. Its spectroscopic, optical, magnetic and electronic properties are known. For many years it was left behind, but recently a renewed interest in this oxide has arisen, particularly for its application in the electrochemical field, as anode in Lithium Ion and Sodium Ion Batteries and as electrocatalyst for urea oxidation reaction.
  • 419
  • 22 Dec 2022
Topic Review
Biomass Fly Ash-Based Geopolymers
The production of conventional cement involves high energy consumption and the release of substantial amounts of carbon dioxide (CO2), exacerbating climate change. Additionally, the extraction of raw materials, such as limestone and clay, leads to habitat destruction and biodiversity loss. Geopolymer technology offers a promising alternative to conventional cement by utilizing industrial byproducts and significantly reducing carbon emissions.
  • 415
  • 10 Aug 2023
Topic Review
LaAlO3-Based Solid Oxide Fuel Cell Electrolytes
Solid oxide fuel cells (SOFCs) are efficient electrochemical devices that allow for the direct conversion of fuels (their chemical energy) into electricity. Although conventional SOFCs based on yttria-stabilized zirconia (YSZ) electrolytes are widely used from laboratory to commercial scales, the development of alternative ion-conducting electrolytes is of great importance for improving SOFC performance at reduced operation temperatures. The basic information has been researched (synthesis, structure, morphology, functional properties, applications in SOFCs) on representative family of oxygen-conducting electrolytes, such as doped lanthanum aluminates (LaAlO3).
  • 413
  • 16 Jun 2022
Topic Review
Radiopaque Crystalline, Non-Crystalline and Nanostructured Bioceramics
Radiopacity is sometimes an essential characteristic of biomaterials that can help clinicians perform follow-ups during pre- and post-interventional radiological imaging. Due to their chemical composition and structure, most bioceramics are inherently radiopaque but can still be doped/mixed with radiopacifiers to increase their visualization during or after medical procedures. The radiopacifiers are frequently heavy elements of the periodic table, such as Bi, Zr, Sr, Ba, Ta, Zn, Y, etc., or their relevant compounds that can confer enhanced radiopacity. Radiopaque bioceramics are also intriguing additives for biopolymers and hybrids, which are extensively researched and developed nowadays for various biomedical setups. 
  • 413
  • 04 Nov 2022
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