TEM micrographs of the GO stock suspension demonstrated GO nanoplatelets of homogenous, round shape with lateral dimensions in the lower nanometer range (<50 nm). GO nanoplatelets were either present as individual particles or in the form of larger aggregates/agglomerates with lateral dimension ranging...
4C). The linear model based on the four differences in resistance for PACAP-38 (one for each PACAP-38 concentration) is represented by y=−3.04601a−3.69581 (Fig. 4D). Based on the linear models for the monomers of Aβ and PACAP-38, we predicted the values reflecting the ...
This one has better monolayer graphene coverage because it is easier to control for smaller sizes. Both products are prepared by the CVD method, but we use a different set of equipment, so we name the products differently to make that distinction. You may choose whichever works best for your...
Graphene is the thinnest possible form of graphite, which you can find in your everyday pencil. It’s purely bi-dimensional, a single layer of carbon atoms that has unbelievable properties that will one day revolutionize everything from aerospace engineering to medicine. Its diverse uses are seem...
Tungsten oxide (WO3, 99.9+%, 40–50 nm, Stock # 5506BD, CAS # 1314-35-8, Lot # 5506-021115) were purchased from Nanostructured & Amorphous Materials, Inc. (Katy, TX, USA). Graphene was provided by Celtig LLC (Knoxville, TN, USA). The microscope glass slides and indium tin oxide...
Before chemiluminescence measurements, the stock enzyme solution was kept for 15 min at laboratory temperature. The catalytic activity of the one enzyme unit converts 1.0 μmol of xanthine to uric acid in 1 min at 25 °C and pH 7.5. Chemiluminescent probes L-012 (8-Amino-5-chloro-2,3-...
Tail intensity (%) was selected by both laboratories as the main measure for DNA damage, as it represents the currently most accepted one. TI is, over a wide range, directly proportional to the number of DNA strand breaks induced. At least one hundred appropriately stained, non-overlapping nu...
Graphene is an excellent 2D, one atom thick layer material, and it is the thinnest material in the world. Despite having excellent properties, graphene itself cannot be used at large scale for light absorption experiments. Therefore, 3D structures were formed when they are combined with ...