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Topic Review
Geopolymer Materials for Extrusion-Based 3D-Printing
3D-printing is a sustainable approach to geopolymer material manufacturing, promoting waste reduction, energy consumption reduction, and CO2 emission reduction. In addition, 3D-printing technology based on geopolymers confronts hurdles that must be overcome to produce high-performance goods. One of the most important aspects of the quality and accuracy of 3D-printed geopolymers is the design of the mixture. Utilising industrial waste from mining and building as well as alternate aluminosilicate sources are two ways to advance the development of printing geopolymer combination compounds.
  • 105
  • 25 Dec 2023
Topic Review
Geopolymers vs. Cement Matrix Materials
Geopolymers are spreading more and more in the cementitious materials field, exhibiting technological properties that are highly competitive to conventional Portland concrete mixes.
  • 655
  • 24 Aug 2021
Topic Review
High-Velocity Oxy-Fuel Technology
Due to the toxicity associated with chromium electrodeposition, alternatives to that process are highly sought after. One of those potential alternatives is High Velocity Oxy-Fuel (HVOF). Costs and environmental impacts per piece coated are then evaluated. On an economic side, the lower labor requirements of HVOF allow one to noticeably reduce the costs (20.9% reduction) per functional unit (F.U.). Furthermore, on an environmental side, HVOF has a lower impact for the toxicity compared to electrodeposition, even if the results are a bit more mixed in other impact categories.
  • 255
  • 26 May 2023
Topic Review
Hybrid Graphene/Fiber Reinforced Cementitious Composites
Graphene with fascinating properties has been deemed as an excellent reinforcement for cementitious composites, enabling construction materials to be smarter, stronger, and more durable. However, some challenges such as dispersion issues and high costs, hinder the direct incorporation of graphene-based reinforcement fillers into cementitious composites for industrial production. The combination of graphene with conventional fibers to reinforce cement hence appears as a more promising pathway especially towards the commercialization of graphene for cementitious materials.  This entry introduces the preparation and the enhancement of hybrid graphene-fiber reinforced cementitious composites.
  • 734
  • 09 Oct 2021
Topic Review
Hydroxyapatite and Derivatives for Photocatalytic and Antibacterial Applications
Hydroxyapatite (HAp) is an attractive bioceramic from an environmental point of view. It mainly allows ion exchange between Ca2+ and other metal ions, making it an attractive material in the photodegradation of aquatic life effluents. Strategies for the performance of HAp-based functionalized material were reported, for example, doping, immobilization, deposition, incorporation, and support. Due to the production of stoichiometric defects capable of estimating response in the presence of light (UV, visible or solar) through charge carriers' interaction and/or mobility. Its favors photocatalytic performance and positive responses in the physicochemical properties to form an effective and sustainable photocatalyst.  
  • 911
  • 26 May 2022
Topic Review
Influence of HPT on Photocatalytic CO2 Conversion
Severe plastic deformation (SPD) through the high-pressure torsion (HPT) process has been effectively used in recent years to develop novel active catalysts for CO2 conversion. HPT as an SPD method has been used since 1935 until now for grain refinement and the production of nanostructured materials. In addition to grain refinement, the introduction of various defects, such as vacancies and dislocations, is another feature of HPT, which resulta in the improvement of the functionality of materials proceeded by this method.
  • 244
  • 28 Apr 2023
Topic Review
Irradiation-Induced Amorphous-to-Crystalline Phase Transformations in Ceramic Materials
Ceramics are exposed to extreme irradiation environments in numerous applications, including nuclear fuels and claddings, immobilizing and storing nuclear waste, radiation shielding, space exploration and travel, and doping of semiconductors. In such environments, energetic particles impinging on crystalline ceramic materials lead to the creation of damage through various energy transfer mechanisms, culminating in changes to material microstructures, properties, and performance. Although crystalline ceramics have historically been used in practical irradiation-facing applications, amorphous ceramics have recently garnered interest for their unique properties and characteristics, including irradiation tolerance. Amorphous materials are purported to better resist irradiation than crystalline ceramics. The a-to-c transformations can be broadly categorized into three types: (1) athermal, resulting exclusively from either electron or ion irradiation of amorphous material, (2) resulting from the combined effects of heating and either ion or electron irradiation, or (3) epitaxial growth or recrystallization of an amorphous oxide due to ion or electron irradiation. 
  • 308
  • 09 Sep 2022
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).
  • 422
  • 16 Jun 2022
Topic Review
LaGaO3-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 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 studied on representative family of oxygen-conducting electrolytes, such as doped lanthanum gallates (LaGaO3). Complex oxides based on LaGaO3 offer a convenient basis for the design of oxygen-conducting electrolytes that can be employed in intermediate-temperature solid oxide fuel cells. A rational combination of appropriate dopants incorporated at various sublattices of LaGaO3 allows superior transport properties to be achieved for co-doped derivatives (La1−xSrxGa1−yMgyO3−δ, LSGM).
  • 704
  • 20 Jun 2022
Topic Review
Magnetoelectric Sensors
Multiferroic magnetoelectric (ME) materials with the capability of coupling magnetization and electric polarization have been providing diverse routes towards functional devices and thus attracting ever-increasing attention. The typical device applications include sensors, energy harvesters, magnetoelectric random access memories, tunable microwave devices and ME antennas etc. Among those application scenarios, ME sensors are specifically focused in this review article. We begin with an introduction of materials development and then recent advances in ME sensors are overviewed. Engineering applications of ME sensors are followed and typical scenarios are presented. Finally, several remaining challenges and future directions from the perspective of sensor designs and real applications are included.
  • 1.9K
  • 07 Jun 2021
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