Analytische Chemie
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One of the important analytical challenges is the fast and reliable trace detection of explosives in the context of security issues, ammunition disposal, and environmental pollution. Antibodies (Ab) are a promising tool for this purpose and the combination with a
surface acoustic wave (SAW) sensor opens the opportunity of highly selective and fast, label-free detection. A robust and sensitive method for the detection of the explosive trinitrotoluene (TNT) was developed. The detection limit was determined to be around 0.5 μg/L. The fast signal response of less than 1 minute shows that this approach is suitable for security and other time-critical applications. In addition, the very low crossreactivity highly reduces the number of false-positives in relation to competing techniques, including sniffer dogs. Due to the multianalyte ability of the SAW system, several explosives might be detected in parallel. Terminal amino groups were functionalized with trinitrophenyl (TNP) groups by reaction with trinitrobenzene sulfonic acid (TNBS). In less than 1 minute, a good signal response was obtained. 50 μL of sample was used. No non-specific interaction with the SAM surface was observed. A complete measuring cycle needed 19 minutes including a surface regeneration step with 50 μL of acetonitrile/water/propionic acid (50:50:1) and 150 μL of SDS solution (0.1 %, pH 1 with 100 mM glycine and 100 mM NaCl). A good long-term stability could be shown for at least 6 hours. Two polyclonal antibodies (R1, R2, affinity purified with Protein A) and a monoclonal antibody (A1.1.1) were tested successfully. A commercially available SAW sensor (sam5 blue, SAW Instruments) was used for liquid handling and detection. Self-assembled monolayers (SAM) of alkanethiol derivatives were
prepared on gold surfaces leading to non-fouling and hydrophilic properties, due to attached polyethylene glycol (PEG) residues. A continuous flow of buffer (phosphate-buffered saline, PBS plus Tween 20) of 100 μL/min was applied to the sensor system. TNT antibodies were pre-incubated with the samples containing traces of explosives. Polyclonal and monoclonal antibodies were tested.
The limit of detection (LOD) was determined to 0.5 μg/L for all three antibodies (3s from 12 replicates).
A robust and sensitive method for the detection of the explosive trinitrotoluene (TNT) was developed. The detection limit was determined to be around 0.5 µg/L. The fast signal response of less than 1 minute shows that this approach is suitable for security and other time-critcal applications. In addition, the very low cross-reactivity highly reduces the number of false-positives in relation to competing techniques, including sniffer dogs. Due to the multianalyte ability of the SAW system, several explosives might be detected in parallel.
Biofouling constitutes a major challenge in the application of biosensors and biomedical implants, as well as for (food) packaging and marine equipment. In this work, an antifouling surface coating based on the combination of mussel-inspired dendritic polyglycerol (MI-dPG) and an amine-functionalized block copolymer of linear polyglycerol (lPG−b−OA11, OA = oligo-amine) was developed. The coating was compared to a MI-dPG surface which was postfunctionalized with commercially available amine-terminated Polyethylene glycol (HO−PEG−NH2) of similar molecular weight. In the current work, These coatings were compared in their chemical stability, protein fouling characteristics, and cell fouling characteristics. The lPG−b−OA11-functionalized coating showed high chemical stability in both phosphate buffered saline (PBS) and sodium dodecyl sulfate (SDS) solutions and reduced the adhesion of fibrinogen from human plasma with 99% and the adhesion of human serum albumin with 96%, in comparison to the bare titanium dioxide substrate. Furthermore, the Proliferation of human umbilical vein endothelial cells (HUVECs) was reduced with 85% when the lPG−b−OA11 system was compared to bare titanium dioxide. Additionally, a reduction of 94% was observed when the lPG−b−OA11 system was compared to tissue culture polystyrene.
Understanding the correlation between the morphological and functional properties of particulate materials is crucial across all fields of physical and natural sciences. This manuscript reports on the investigation of the effect of polyethylene glycol (PEG) employed as a capping Agent in the synthesis of SrTiO3 crystals. The crucial influence of PEG on both the shape and size of the strontium titanate particles is revealed, highlighting the effect on the photocurrents measured under
UV–Vis irradiation.