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Topic Review
Sustainable Fire-Resistant Polysaccharide-Based Composite Aerogels
Fire safety is a critical concern in various industries necessitating the development of sustainable and effective fire-resistant materials. Sustainable fire-resistant polysaccharide-based composite aerogels are regarded as an innovative solution in fire safety applications.
  • 340
  • 16 Aug 2023
Topic Review
Sustainable Concrete Quality Management
The development of a concrete mixture design process for high-quality concrete production with sustainable values is a complex process because of the multiple required properties at the green/hardened state of concrete and the interdependency of concrete mixture parameters. A new multi-criteria decision making (MCDM) technique based on Technique of Order Preference Similarity to the Ideal Solution (TOPSIS) methodology is applied to a fuzzy setting for the selection of concrete mix factors and concrete mixture design methods with the aim towards sustainable concrete quality management. Three objective properties for sustainable quality concrete are adopted as criteria in the proposed MCDM model. The seven most dominant concrete mixture parameters with consideration to sustainable concrete quality issues, i.e., environmental (density, durability) and socioeconomic criteria (cost, optimum mixture ingredients ratios), are proposed as sub-criteria. Three mixture design techniques that have potentiality to include sustainable aspects in their design procedure, two advanced and one conventional concrete mixture design method, are taken as alternatives in the MCDM model. The proposed selection support framework may be utilized in updating concrete design methods for sustainability and in deciding the most dominant concrete mix factors that can provide sustainable quality management in concrete production as well as in concrete construction. The concrete mix factors found to be most influential to produce sustainable concrete quality include the water/cement ratio and density. The outcomes of the proposed MCDM model of fuzzy TOPSIS are consistent with the published literature and theory. TheDOE method was found to be more suitable in sustainable concrete quality management considering its applicable objective quality properties and concrete mix factors.
  • 625
  • 26 Oct 2020
Topic Review
Sustainable Catalytic Pyranopyrazole Scaffolds’ Synthesis
Heterocycles are important components of many natural materials and are extremely valuable in organic and medicinal chemistry. Among the heterocyclic entities, pyranopyrazole moieties have demonstrated remarkable biochemical behaviours and activities which provide a versatile skeleton for drug innovation. Hence, many nitrogen-based, fused structures have been incorporated as building blocks of various pharmacological potent scaffolds. Pyranopyrazoles are known for their anti-inflammatory, analgesic, antidiabetic, antimicrobial, cholinesterase-inhibiting, antibacterial and anticancer activities, as well as for their efficacy in treating Alzheimer’s disease. Because of this, several cost-effective synthetic protocols for synthesising pyranopyrazole derivatives—utilising less expensive substrates, reusable catalysts, and eco-friendly solvents—have been developed.
  • 930
  • 10 Jun 2021
Topic Review
Sustainability in Cosmetic Products
Characterize particulate matter (PM) concentrations released during the application of cosmetic powders, estimate the respiratory dosage for the different cosmetic powder types, and evaluate the sustainability based on the environmental and health effects.
  • 736
  • 26 Oct 2020
Topic Review
Surfactants in Corrosion Inhibitors
Surfactants are commonly used as corrosion inhibitors due to their ability to adsorb onto metal surfaces and form a protective barrier. When surfactants are added to a solution, they can reduce the surface tension and promote the wetting of the metal surface by the solution. This allows the surfactant molecules to be attracted to the metal surface, where they can adsorb and form a protective layer. Surfactants can also help to inhibit corrosion by reducing the electrochemical activity of the metal surface. This can be achieved by either reducing the rate of anodic or cathodic reactions, or by reducing the rate of ion transport across the metal-solution interface. By inhibiting these electrochemical processes, the surfactant can slow down the rate of corrosion and prevent further degradation of the metal surface. In addition to their inhibitive properties, surfactants can also improve the performance of other corrosion inhibitors. For example, surfactants can enhance the adsorption of organic inhibitors onto metal surfaces, which can increase their effectiveness. Surfactants can also improve the solubility and stability of inorganic inhibitors, which can improve their dispersibility in a solution.
  • 1.5K
  • 24 Mar 2023
Topic Review
Surfactants as Performance-Enhancing Additives in Supercapacitor Electrolyte Solutions
Wetting the surface area of an electrode material as completely as possible is desirable to achieve optimum specific capacity of an electrode material. Keeping this surface area utilized even at high current densities and even when inside small pores is required for high capacitance retention. The addition of surfactants at small concentrations to aqueous supercapacitor electrolyte solutions has been suggested as a way to improve performance in terms of capacitance, capacitance retention at increased current density and stability. Effects are pronounced with carbon materials used in electrochemical double-layer capacitors; they are also observed with redox materials. 
  • 286
  • 29 Jan 2024
Topic Review
Surface-Functionalized Separator
The surface-modified separator plays a role in improving the electrolyte wettability, homogenizing Li+flux, and strengthening the mechanical/thermal property. Due to these favorable benefits, the formation of sharp Li dendrite is efficiently suppressed and the thermal stability of battery is greatly enhanced. In this article, separator-coating materials are classified into six categories in terms of material characteristics to show how each material has different electrochemical properties. We believe that the suggested approach would become a powerful strategy to improve the performance and stability of next-generation batteries such as lithium-metal batteries.
  • 999
  • 23 Sep 2021
Topic Review
Surface-Functionalized Selenium Nanoparticles in Brain Diseases Therapy
Selenium (Se) and its organic and inorganic compounds in dietary supplements have been found to possess excellent pharmacodynamics and biological responses.
  • 237
  • 27 Jun 2023
Topic Review
Surface-Enhanced Raman Spectroscopy Nanostructure in High-Temperature Processes
Surface-enhanced Raman spectroscopy (SERS) is a highly sensitive analytical technique based on Raman scatter and utilizes the nanostructures of active metals, such as gold and silver, with roughened surfaces as a signal amplifier. With its enhancement effect and “fingerprint” ability, in situ SERS is able to capture the dynamics of microstructure evolution and trace surface species in real time, which provides direct information for the analysis of a reaction mechanism in various surface processes, including heterogeneous catalysis, electrochemical reactions, etc. SERS has been widely used in operando analysis of surface processes under ordinary temperatures. For application in high-temperature processes, the harsh environment puts forward additional requirements in addition to high sensitivity for the SERS nanostructures, especially concerning thermal stability, chemical inertness, and surface universality. 
  • 375
  • 20 Feb 2023
Topic Review
Surface-Enhanced Raman Spectroscopy Clinical Applications
Surface-enhanced Raman spectroscopy (SERS) has become a powerful analytical technique, widely used for the detection of various analytes at low concentrations. In comparison to many other analytical methods, SERS is a highly sensitive, fast, humidity-independent analytical method with a high potential for multiplexed detection. SERS advantages over fluorescence, for instance, include good robustness/low photobleaching and capabilities for label-free detection, while SERS can be applied for in situ monitoring, in vivo biosensing, and even single molecule detection. Due to these advantages, SERS is widely used in molecular biology, biomedicine, and environmental science. Furthermore, SERS is capable of detecting single molecules Factors such as pH, the degree of nanoparticle (NP) aggregation, temperature and substrate composition can have a significant impact on the reproducibility and enhancement of SERS applications.
  • 456
  • 28 Nov 2022
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