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Topic Review
Materials Science, Glasses
Glasses are solid amorphous materials which transform into liquids upon heating through the glass transition. The International Commission on Glass defines glass as a state of matter, usually produced when a viscous molten material is cooled rapidly to below its glass transition temperature, with insufficient time for a regular crystal lattice to form. The solid-like behaviour of glasses is separated from the liquid-like behaviour at higher temperatures by the glass transition temperature, Tg. The IUPAC Compendium on Chemical Terminology defines glass transition as a second order transition in which a supercooled melt yields, on cooling, a glassy structure. It states that below the glass-transition temperature the physical properties of glasses vary in a manner similar to those of the crystalline phase. Moreover, it is deemed that the bonding structure of glasses has the same symmetry signature in terms of Hausdorff-Besikovitch dimensionality of chemical bonds as for the crystalline materials. 
  • 3.6K
  • 09 May 2024
Topic Review
Materials Possible for Lunar and Martian Habitats
Space missions will require the capability to build structures on site using local resources. Before 2040, NASA and the European Space Agency want to ensure the possibility of a permanent human residence in shelters on the Moon or Mars. Herein, innovative and energy efficient solutions for manufacturing lunar and Martian shelters based on geopolymer composites are shown.
  • 350
  • 30 Dec 2022
Topic Review
Materials for treating burns
This article explains this product's requirements and reviews the developmental steps and published literature on the use of Suprathel® (Polymedics Innovations GmbH.  Denkendorf, Germany). Successful research and development cooperation between a textile research institute, the German Federal Ministry of Education and Research via the Center for Biomaterials and Organ Substitutes, the University of Tübingen, and the Burn Center of Marienhospital, Stuttgart, Germany, led to the development of a fully synthetic resorbable temporary epidermal skin substitute for the treatment of burns, burn-like syndromes, donor areas, and chronic wounds. This article describes the demands of the product and the steps that were taken to meet these requirements. The material choice was based on the degradation and full resorption of polylactides to lactic acid and its salts. The structure and morphology of the physical, biological, and degradation properties were selected to increase the angiogenetic abilities, fibroblasts, and extracellular matrix generation. Water vapor permeability and plasticity were adapted for clinical use. The available scientific literature was screened for the use of this product. A clinical application demonstrated pain relief paired with a reduced workload, fast wound healing with a low infection rate, and good cosmetic results. A better understanding of the product’s degradation process explained the reduction in systemic oxidative stress shown in clinical investigations compared to other dressings, positively affecting wound healing time and reducing the total area requiring skin grafts.
  • 545
  • 23 Feb 2021
Topic Review
Materials for Three-Dimensional Bio-Printing
The fast-developing field of three-dimensional (3D) bio-printing has been extensively used to improve the usability and performance of scaffolds filled with cells. To further 3D-printing uses in tissue engineering, research on novel, suitable biomaterials with quick cross-linking capabilities is a prerequisite. A wider variety of acceptable 3D-printed materials are still needed, as well as better printing resolution (particularly at the nanoscale range), speed, and biomaterial compatibility.
  • 477
  • 29 Jan 2023
Topic Review
Materials for Lithium-Ion Batteries
Lithium-ion batteries (LIBs) are the most commonly used ESS in modern society, mainly due to their high specific capacity, making them appropriate for small and light portable devices without limiting their performance. LIBs are also characterized by prolonged cycle life and no memory effects. These are important advantages that increased the use of LIBs, leading to a progressive replacement of previous technologies, such as nickel–cadmium and nickel–metal hydride batteries, which are less efficient, in particular for small device applications.
  • 1.2K
  • 21 Jun 2021
Topic Review
Materials for Frequency Down-Conversion Light-Emitting Diodes
Luminescent carbon dots (CDs) are a new form of nanocarbon quantum dot (QD) that have gained a huge amount of interest in recent years for their properties; in particular, their optical properties make them suitable for light-emitting diode (LED) manufacturing. One of the most frequently used methods for obtaining different emission spectra is color conversion, typically used for high CRI and white LEDs and displays, where the lowest emission wavelength source pumps other layers of materials, commonly called phosphors, that induce a conversion to the highest wavelengths.
  • 353
  • 11 Oct 2022
Topic Review
Materials for Agricultural Gas Sensors
A sensing material employed as a gas sensor will react with multiple gases, and for this reason, multiple sensing materials are employed in a network of gas sensors known as an electronic nose (eNose) system. By recording the response of this network of gas sensors, a signature which relates to the target analyte is detected, mitigating the issue of selectivity. 
  • 679
  • 21 May 2021
Topic Review
Materials Design for N2O/CO2 Capture and Separation
The adsorption of greenhouse gases (GHG) as a method to reduce their emissions into the atmosphere is an alternative that is easier to implement industrially and cheaper than other existing technologies, such as chemical capture, cryogenic separation, or membrane separation. The vast majority of works found in the literature have focused their efforts on capturing CO2 as it is the largest GHG.
  • 513
  • 22 Feb 2023
Topic Review
Materials Based on Cellulose Fibers and Foam Forming
The potential of foam-formed materials based on cellulose fibers (CF) has been harnessed in the pursuit of sustainable and environmentally friendly materials and has gained significant attention. Indeed, foam-formed materials based on CF have emerged as a promising solution. By combining the inherent properties of CF with the unique characteristics of foam-forming, these materials offer a wide range of applications and demonstrate great potential in various industries.
  • 190
  • 27 Sep 2023
Topic Review
Material Reactions, Degradation and Applications of Polyvinylidene Fluoride
Polyvinylidene fluoride (PVDF), the chemical formula is (C2H2F2)n. Its basic building blocks are therefore carbon, hydrogen, and fluorine. These three elements can form several crystalline chain conformations. Conformations are defined by polar and nonpolar phases. Four phases are most commonly found in the literature: α-, β-, γ-, and δ-. 
  • 602
  • 17 Oct 2022
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