In recent years, as a new type of
carbon dots, carbonized polymer
dots (CPDs) have attracted more and more attention in many fields.
In this experiment, a new kind of CPDs was synthesized by the hydrothermal
treatment of the chemically cross-linked sodium alginate (SA) via
glutaraldehyde. The fluorescence of CPDs was greatly enhanced because
of the cross-linking enhanced emission effect. The formation process
of CPDs at different reaction temperatures was explored. In addition,
it was found that CPDs have stable fluorescence properties in mild
acidic/basic and metal-ion environments. The in vitro toxicity of
CPDs was tested, and based on their nontoxic property, SA films with
anti-ultraviolet aging properties were prepared by using CPDs as the
additive.
In this study, sodium alginate (SA) nanofibres were obtained by electrospinning via the assistance of traditional poly(ethyl oxide) (PEO) and dimethyl sulfoxide (DMSO) with a high SA/PEO ratio of up to 94:6. However, surfactants with more or less toxicities were replaced by nontoxic and fluorescent carbon dots (CDs) to improve spinnability. Experimental details were conducted by fixing the ratio of SA/PEO to 90:10. Then, the electrospinning products of solutions with different compositions were observed with scanning electron microscopy. Properties such as conductivity, surface tension and rheology of the solutions were investigated to determine the key influencing factors. Moreover, since CDs have excellent fluorescence properties, the fluorescent properties of the nanofibre membrane that was blended with CDs were then collected. In addition, in vitro cytotoxicity assessment of the nanofibres were conducted to evaluate the toxicities and biocompatibility.
In this work, a novel organomagnesium complex with outstanding aggregation induced emission (AIE) properties is synthesized using dibenzoylmethane (DBM) as the ligand. The structure of the complex is confirmed to be one magnesium ion coordinated to the dione groups of two DBM molecules, and the magnesium ion adopts a distorted octahedrally geometry. The obvious emission is found for Mg(DBM) 2 powder and not in the solution, making this the first reported organomagnesium complex with AIE property. The properties of the complex were investigated by using UV-vis absorption and fluorescence emission spectroscopy, cyclic voltammetry, and density func-tional theory calculations. Moreover, the Mg(DBM) 2 solution dispersed in filter paper was is colorless, which may be made into a convenient anti-counterfeiting and encryption tool. Mg(DBM) 2 /alginate fibers were prepared by wet-spinning process and further processed into paper, which can be used in the fields of sensors, anti-counterfeiting, and encryption. Sweat contains a wealth of chemical information that could potentially indicate the body's deeper biomolecular state. The prepared fluorescent fibers were used to detect sweat due to its nontoxic, low-cost efficient and fast response to analytes.
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