The famous chromogenic reaction between starch and iodine has been widely used for chemical analysis since its first discovery in the year of 1814 while it is seldom utilized in biomedical applications. Inspired by their high iodine content and strong optical absorbance in the near infrared (NIR) region, monodisperse amylose-iodine nanoparticles (AM-I NPs), synthesized by simple mixing of amylose NPs and KI-I solutions, were explored as a new class of high-performance antibacterial agent. Benefiting from the broad-spectrum antibacterial property of iodine and photothermal effect of the amylose-iodine complex, the obtained AM-I NPs exhibited an excellent photothermal-enhanced sterilization effect for both Gram-negative Escherichia coli (E.
View Article and Find Full Text PDFThe ever-growing global crisis of multidrug-resistant bacteria has triggered a tumult of activity in the design and development of antibacterial formulations. Here, atomically thin antimony selenide nanosheets (SbSe NSs), a minimal-toxic and low-cost semiconductor material, were explored as a high-performance two-dimensional (2D) antibacterial nanoagent via a liquid exfoliation strategy integrating cryo-pretreatment and polyvinyl pyrrolidone (PVP)-assisted exfoliation. When cultured with bacteria, the obtained PVP-capped SbSe NSs exhibited intrinsic long-term antibacterial capability, probably due to the reactive oxygen species generation and sharp edge-induced membrane cutting during physical contact between bacteria and nanosheets.
View Article and Find Full Text PDFGuang Pu Xue Yu Guang Pu Fen Xi
October 2013
There has been a growing interest in using spectral reflectance as a rapid and inexpensive tool for soil salinity monitoring in recent years. However, since soil moisture often exerts a tremendous influence on soil reflectance, the monitoring accuracy under various moisture conditions cannot fully satisfy the requirements of agricultural practice. In the present paper, a linear model was built to relate the spectral symmetry in the band of 1 370 - 1 610 nm with the salt content and moisture content of the saline soil based on regularly measured data of reflectance, soil moisture and salt content of the surface of 5 soil columns during the simulated evaporation process in laboratory.
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