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This review investigates the available metallic powder bed additive manufacturing technologies with respect to their basic principles and capabilities in terms of developing orthopedic implants. Detailed descriptions of commonly used metallic alloys employed for orthopedic applications are also presented. The relationship between implant surface properties and cellular attachment and the formation of bacterial colonies are also discussed. Accordingly, we show how different surface modification techniques have been applied to improve both the biointerface of metallic implants for enhanced osseointegration and to control the formation of biofilm to protect against implant infection. In addition, the future direction of metallic additive manufacturing in the case of improving bone interface has been discussed. SBFI-26 solubility dmso This review aids in the design of bone-interfacing metallic implants fabricated by additive manufacturing processes, specifically accommodating enhanced biointerfaces for the next generation patient-specific orthopedic implants.Wide field-of-view (FOV) optical functionality is crucial for implementation of advanced imaging and image projection devices. Conventionally, wide FOV operation is attained with complicated assembly of multiple optical elements known as "fisheye lenses". Here we present a novel metalens design capable of performing diffraction-limited focusing and imaging over an unprecedented near 180° angular FOV. The lens is monolithically integrated on a one-piece flat substrate and involves only a single layer of metasurface that corrects third-order Seidel aberrations including coma, astigmatism, and field curvature. The metalens further features a planar focal surface, which enables considerably simplified system architectures for applications in imaging and projection. We fabricated the metalens using Huygens meta-atoms operating at 5.2 μm wavelength and experimentally demonstrated aberration-free focusing and imaging over the entire FOV. The design concept is generic and can be readily adapted to different meta-atom geometries and wavelength ranges to meet diverse application demands.Seven-membered-ring trans-alkenes undergo rapid hydro- and carboalumination reactions in the absence of a catalyst with complete regio- and diastereoselectivity. Control experiments, including deuterium labeling, adding radical inhibitors, and using a radical clock, suggest that these reactions proceed by a concerted mechanism. The products of the reaction possess a new carbon-aluminum bond that can then undergo subsequent transformations, particularly oxidation, providing functionalized products as single stereoisomers.The sustainable cross-dehydrogenative coupling of strong C(sp3)-H with N-heteroarenes has been developed using an efficient organic photocatalyst. It features atomic- and step-economy, and acid-free conditions. Mechanism studies suggest a previous elusive energy transfer pathway from photocatalyst to N-heteroarenes and oxidants.Microplastics are defined as microscopic plastic particles in the range from few micrometers and up to 5 mm. These small particles are classified as primary microplastics when they are manufactured in this size range, whereas secondary microplastics arise from the fragmentation of larger objects. Microplastics are widespread emerging pollutants, and investigations are underway to determine potential harmfulness to biota and human health. However, progress is hindered by the lack of suitable analytical methods for rapid, routine, and unbiased measurements. This work aims to develop an automated analytical method for the characterization of small microplastics ( less then 100 μm) using micro-Fourier transform infrared (μ-FTIR) hyperspectral imaging and machine learning tools. Partial least squares discriminant analysis (PLS-DA) and soft independent modeling of class analogy (SIMCA) models were evaluated, applying different data preprocessing strategies for classification of nine of the most common polymers produced worldwide. The hyperspectral images were also analyzed to quantify particle abundance and size automatically. PLS-DA presented a better analytical performance in comparison with SIMCA models with higher sensitivity, sensibility, and lower misclassification error. PLS-DA was less sensitive to edge effects on spectra and poorly focused regions of particles. The approach was tested on a seabed sediment sample (Roskilde Fjord, Denmark) to demonstrate the method efficiency. The proposed method offers an efficient automated approach for microplastic polymer characterization, abundance numeration, and size distribution with substantial benefits for method standardization.To improve the flavor of hydrolysates from porcine hemoglobin and meat, γ-glutamyltranspeptidase (GGT) from Bacillus amyloliquefaciens was added to catalyze the formation of kokumi γ-glutamyl peptides via a γ-glutamyl transfer reaction. Quantitation of free amino acids and γ-glutamyl dipeptides was carried out in combination with sensory analysis. Sensory perception, especially the thick, complex, continuous, and overall kokumi sensation of both hemoglobin and meat hydrolysates, was greatly enhanced by γ-glutamylation. Due to the higher amount of glutamine present in meat hydrolysates, γ-glutamylated hydrolysates from meat contained higher concentrations of γ-glutamyl dipeptides and showed stronger kokumi sensation than the hemoglobin counterpart without the addition of glutamine. For hydrolysates from both raw materials, extra addition of glutamine (10 and 20 mM) was beneficial for obtaining higher concentrations of γ-glutamyl dipeptides but contributed little to the kokumi sensation. This study revealed that the kokumi sensation of protein hydrolysates could be intensified by a γ-glutamyl transfer reaction, and the enhanced kokumi sensation could be related to the generation of γ-glutamyl peptides.Benzylic C-H borylation reactions are limited, requiring new approaches to exploit their reactivity for efficient selective functionalization. The recent development of phosphine-directed C-H borylation of arenes has now been extended to benzylic substrates, providing high yield of the mono- and geminal bis-borylation products. Attempts to borylate the C-H bond α to a benzylic ether or amine resulted in C-O and C-N borylation, followed by C-H borylation to provide geminal bis-borylated products.