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Topic Review
Mechanism of Diffusion Bonding
Critical aspects of innovative design in engineering disciplines like infrastructure, transportation, and medical applications require the joining of dissimilar materials. Welding and brazing, while widely used, may pose challenges when joining materials with large differences in melting temperature and can lead to mechanical property degradation. In contrast, diffusion bonding offers a lower temperature process that relies on solid-state interactions to develop bond strength. The joining of tungsten and steel, especially for fusion reactors, presents a unique challenge due to the significant disparity in melting temperatures and the propensity to form brittle intermetallics. Here, diffusion characteristics of tungsten–steel interfaces are examined and the influence of bonding parameters on mechanical properties are investigated. Additionally, CALPHAD modeling is employed to explore joining parameters, thermal stability, and diffusion kinetics. The insights from this research can be extended to join numerous dissimilar materials for specific applications such as aerospace, automobile industry, power plants, etc., enabling advanced and robust design with high efficiency.
  • 765
  • 17 Aug 2023
Topic Review
Propolis in Protecting the Skeleton
Chronic inflammation and oxidative stress are two major mechanisms leading to the imbalance between bone resorption and bone formation rate, and subsequently, bone loss. Thus, functional foods and dietary compounds with antioxidant and anti-inflammatory could protect skeletal health. This review aims to examine the current evidence on the skeletal protective effects of propolis, a resin produced by bees, known to possess antioxidant and anti-inflammatory activities.
  • 764
  • 02 Jun 2021
Topic Review
Root-Analogue Implants
 It is estimated that 10% of the world’s population will need a dental implant in their lifetime. Despite all the advances in the comprehension of dental implant designs, materials and techniques, traditional implants still have many limitations. Customized root-analogue implants are, therefore, gaining increased interest in dental rehabilitation and are expected to not only preserve more hard and soft tissues but also avoid a second surgery and improve patient overall satisfaction. 
  • 764
  • 17 May 2021
Topic Review
Hydrogen Evolution Reaction and MXenes
Green hydrogen production via electrocatalytic water splitting paves the way for renewable, clean, and sustainable hydrogen (H2) generation. H2 gas is produced from the cathodic hydrogen evolution reaction (HER), where the reaction is catalyzed primarily from Pt-based catalysts under both acidic and alkaline environments. MXene is a 2D nanomaterial based on transition-metal carbide or nitride, having the general formula of Mn+1XnTx, where M = transition metal, X = C and/or N and Tx = surface termination groups such as F, O, OH and Cl.
  • 764
  • 26 Dec 2022
Topic Review
Titanium Foils
Titanium membranes used as barrier element in guided bone regeneration procedures. These membranes prevent the penetration of epithelial cells and fibroblasts and allow access to the bone defect of osteogenic and stem cells originating from the native bone. They have different formats, from a titanium sheet to be formed intraoperatively to a custom-made occlusive barrier from a previous computed tomography scan of the bone defect.
  • 764
  • 03 Dec 2020
Topic Review
Triazine-Based Liquid Crystal Dendrimers
Most triazine-based liquid crystalline (LC) dendrimers reported thus far are the main-chain LC macromolecules with long flexible chains at their periphery and attached to internal rigid or semi-rigid frameworks. Their formation of mesogenic phases often depends on the intermolecular face-to-face π–π interactions between dendritic molecules, which are unusual. Their mesogenic phases can also be formed by incorporation of mesogenic units to the dendritic skeletons through long flexible chains, as most side-chain LC dendrimers, in which the peripheral mesogenic units generally play the important roles. For main-chain triazine-based dendrimers, their morphology is maintained by restricted freedom of rigid or semi-rigid connecting units, and their formations of LC phases are therefore not straightforward to be controlled.
  • 764
  • 25 Aug 2021
Topic Review
PIL-Based SPEs
Poly(ionic liquide)s (PILs) can be used as solid polymer electrolytes because they have high thermal and electrochemical stabilities. This review is focused on the influence of macromolecular architecture on the ionic conductivity and electrochemical stability of PILs based electrolytes. Imidazolium based PILs are discussed as an example in the review. It is found that the electrolytes with a network structure exhibit better ionic conductivity and mechanical strength.
  • 764
  • 27 Oct 2020
Topic Review
The Feature, Performance of Advanced Electrodes for Electroencephalogram
An electroencephalogram (EEG) is a graph of the difference in voltage between brain scalp locations over time. Since EEG signals are non-stationary and random, they usually present low signal intensity and high noise. Therefore, the development of advanced electrodes to obtain high-quality EEG signals is a very attractive but challenging research topic. Ag/AgCl wet electrodes have been widely used to record brain potentials in real life. However, the use of conductive gels still faces many challenges. Advanced electrodes such as semi-dry, dry contact, dry non-contact, and microneedle array electrodes have been developed to overcome the issues. In this entry, the physical features and EEG signal acquisition performances of these advanced EEG electrodes are introduced in view of the differences in contact between the skin and electrodes. Specifically, contact features, biofeatures, impedance, signal quality, and artifacts are discussed.
  • 764
  • 29 Jan 2023
Topic Review
MS/MS-Based Molecular Networking
Natural products (NPs) have historically played a primary role in the discovery of small-molecule drugs. However, due to the advent of other methodologies and the drawbacks of NPs, the pharmaceutical industry has largely declined in interest regarding the screening of new drugs from NPs since 2000. There are many technical bottlenecks to quickly obtaining new bioactive NPs on a large scale, which has made NP-based drug discovery very time-consuming, and the first thorny problem faced by researchers is how to dereplicate NPs from crude extracts. Remarkably, with the rapid development of omics, analytical instrumentation, and artificial intelligence technology, in 2012, an efficient approach, known as tandem mass spectrometry (MS/MS)-based molecular networking (MN) analysis, was developed to avoid the rediscovery of known compounds from the complex natural mixtures. 
  • 764
  • 03 Jan 2023
Topic Review
Graphene-Based Nanomaterials in Environmental Analysis
Sample preparation is an essential and preliminary procedure of most chemical analyses. Due to the sample diversity, the selection of appropriate adsorbents for the effective preparation and separation of different samples turned out to be important for the methods. By exploiting the rapid development of material science, some novel adsorption materials, especially graphene-based nanomaterials, have shown supremacy in sample pretreatment. In this review, a discussion between these nanomaterials will be made, as well as some basic information about their synthesis. The focus will be on the different environmental applications that use these materials.
  • 763
  • 11 May 2021
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