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Topic Review
Nanobiosensors in Pathogen Detection in Water and Food
Food and waterborne illnesses are still a major concern in health and food safety areas. Methods based on biosensor devices have emerged as novel tools for faster detection of food and water pathogens, in contrast to traditional methods that are usually time-consuming and are unsuitable for large-scale monitoring. Biosensor devices can be summarized as devices that use biochemical reactions with a biorecognition section (isolated enzymes, antibodies, tissues, genetic materials, or aptamers) to detect pathogens. In most cases, biosensors are based on the correlation of electrical, thermal, or optical signals in the presence of pathogen biomarkers. The application of nano and molecular technologies allows the identification of pathogens in a faster and high-sensibility manner, at extremely low-pathogen concentrations. In fact, the integration of gold, silver, iron, and magnetic nanoparticles (NP) in biosensors has demonstrated an improvement in their detection functionality.
  • 304
  • 26 Oct 2023
Topic Review
Microextraction Techniques in Lipid Peroxidation Product Detection
Lipid peroxidation, the most aggressive reaction in food, results in the formation of reactive organic compounds that detrimentally impact food sensory qualities and consumers’ health. While controlled lipid peroxidation can enhance flavors and appearance in certain foods, secondary peroxidation products lead to sensory deterioration in a variety of products, such as oils, alcoholic beverages, and meat. Dispersive liquid-liquid microextraction (DLLME), solid-phase microextraction (SPME), and gas-diffusion microextraction (GDME). These techniques offer efficient and sensitive approaches to extracting and quantifying lipid oxidation products and contribute to the understanding of oxidative deterioration in various food products. 
  • 363
  • 26 Oct 2023
Topic Review
Medicinal  Application of Palladium Nanoparticles
Palladium (Pd), a noble metal, has unique properties for C-C bond formation in reactions such as the Suzuki and Heck reactions. Besides Pd-based complexes, Pd NPs have also attracted significant attention for applications such as fuel cells, hydrogen storage, and sensors for gases such as H2 and non-enzymatic glucose, including catalysis. Additionally, Pd NPs are catalysts in environmental treatment to abstract organic and heavy-metal pollutants such as Cr (VI) by converting them to Cr(III). In terms of biological activity, Pd NPs were found to be active against Staphylococcus aureus and Escherichia coli, where 99.99% of bacteria were destroyed, while PVP-Pd NPs displayed anticancer activity against human breast cancer MCF7.
  • 250
  • 26 Oct 2023
Topic Review
Chemical Composition of Giant Miscanthus from Different Climatic Regions
Lignocellulosic biomass is of great interest as an alternative energy resource because it has a number of advantages. Miscanthus x gigantis is a lignocellulosic feedstock of particular interest because it combines high biomass productivity with low environmental impact, including control of CO 2 emissions. The chemical composition of lignocellulose determines the possibilities of its use for efficient industrial processing. Here we have collected specimens from a collection of Miscanthus x giganteus, which were grown in different climatic regions between 2019 and 2021. The chemical composition was quantified using traditional wet methods. The results were compared with each other and with known data. It has been shown that already from the first year of vegetation, miscanthus has the following chemical composition: cellulose content 43.2–55.5%, acid-insoluble lignin content 17.1–25.1%, pentosan 17.9–22.9%, ash content 0, 90–2.95%, and 0.3–1.2% extractives. Habitat and environment have been found to influence the chemical composition of miscanthus. It was found that the stem part of miscanthus is richer in fiber than the leaf part (48.4–54.9% versus 47.2–48.9%, respectively), regardless of the age of the plantation and habitat. The data obtained expand the geography of research into the chemical composition of miscanthus and confirm the high value of miscanthus for industrial processing into cellulose products around the world.
  • 304
  • 26 Oct 2023
Topic Review
FIB-SEM Tomography: Fundamentals and Applications in Materials Sciences
Focused ion beam (FIB)-scanning electron microscopy (SEM) tomography is an extremely important and reliable technique for the three-dimensional reconstruction of microscopic structures with nanometric resolution, with great potential to be integrated with other analytical techniques. FIB-SEM tomography plays a crucial role in the development of innovative multiscale and multimodal correlative microscopy workflows because it can be seamlessly integrated with other imaging modalities, as the reconstruction range bridges the gap between the non-destructive X-ray families of tomographic techniques, which provide sub-micron resolution, and the nano- to atomic-scale resolution achieved by transmission electron microscopy (TEM) tomography.
  • 504
  • 26 Oct 2023
Topic Review
Tribocorrosion Behavior of Aluminum Alloys
Tribocorrosion is a material degradation process caused by the combined effect of wear and corrosion. The complexity of tribocorrosion lies in the fact that the chemical and mechanical attacks are not independent of each other but often act synergistically to cause accelerated failure.
  • 342
  • 26 Oct 2023
Topic Review
Near Infrared Photosensitive Indocyanine Green Molecules
Indocyanine green (ICG) is an important kind of near infrared (NIR) photosensitive molecules for photothermal therapy (PTT)/photodynamic therapy (PDT) therapy as well as imaging. When exposed to NIR light, ICG can produce reactive oxygen species (ROS), which can kill cancer cells and pathogenic bacteria. Moreover, the absorbed light can also be converted into heat by ICG molecules to eliminate cancer cells. In addition, it performs exceptionally well in optical imaging-guided tumor therapy and antimicrobial therapy due to its deeper tissue penetration and low photobleaching properties in the near-infrared region compared to other dyes. In order to solve the problems of water and optical stability and multi-function problem of ICG molecules, composite nanomaterials based on ICG have been designed and widely used, especially in the fields of tumors and sterilization. 
  • 224
  • 26 Oct 2023
Topic Review
Polyisoprene Rubber
Rubber materials have been used in a wide range of applications, from automotive parts to special-design engineering pieces, as well as in the pharmaceutical, food, electronics, and military industries, among others. Since the discovery of the vulcanization of natural rubber (NR) in 1838, the continuous demand for this material has intensified the quest for a synthetic substitute with similar properties.
  • 816
  • 25 Oct 2023
Topic Review
Multicatalytic Behavior of Ba0.85Ca0.15Ti0.9Zr0.1O3 Ceramic
Ferroelectric materials are known to possess multicatalytic abilities that are nowadays utilized for removing organic pollutants from water via piezocatalysis, photocatalysis, piezo-photocatalysis, and pyrocatalysis processes. The Ba0.85Ca0.15Ti0.9Zr0.1O3 (BCZTO) ceramic is one such ferroelectric composition that has been extensively studied for electrical and electronic applications. Furthermore, the BCZTO ceramic has also shown remarkable multicatalytic performance in water-cleaning applications. 
  • 276
  • 25 Oct 2023
Topic Review
The Application of Dissolving Microneedles in Biomedicine
Microneedle technology has been widely used for the transdermal delivery of substances, showing improvements in drug delivery effects with the advantages of minimally invasive, painless, and convenient operation. With the development of nano- and electrochemical technology, different types of microneedles are increasingly being used in other biomedical fields. Dissolving microneedles have achieved remarkable results in the fields of dermatological treatment, disease diagnosis and monitoring, and vaccine delivery, and they have a wide range of application prospects in various biomedical fields, showing their great potential as a form of clinical treatment. 
  • 303
  • 25 Oct 2023
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