Scientists find an easy way to examine world's thinnest material
Washington, December 24 (ANI): Scientists at Northwestern University, US, have used the dye fluorescein as an easy way to examine the thinnest material in the world.
Jiaxing Huang, assistant professor of materials science and engineering at the McCormick School of Engineering and Applied Science, and his research group have used the dye to create a new imaging technique to view graphene, a one-atom thick sheet that scientists believe could be used to produce low-cost carbon-based transparent and flexible electronics.
Being the world's thinnest materials, graphene and its derivatives such as graphene oxide are quite challenging to see.
Current imaging methods for graphene materials typically involve expensive and time-consuming techniques.
For example, atomic force microscopy (AFM), which scans materials with a tiny tip, is frequently used to obtain images of graphene materials.
But it is a slow process that can only look at small areas on smooth surfaces. Scanning electron microscopy (SEM), which scans a surface with high-energy electrons, only works if the material is placed in vacuum.
Some optical microscopy methods are available, but they require the use of special substrates, too.
"There are really no good techniques that are general enough to meet the diverse imaging needs in the research and development of this group of new materials," Huang said.
"For example, people have proposed putting graphene materials on plastic sheets for flexible electronics, but seeing them on plastic has been very challenging. If one cannot exam these materials, quality control is going to be difficult," he added.
Fluorescent labeling has been used routinely to image biological samples, typically by using fluorescent dyes that make the objects of interest light up under a fluorescence microscope.
But, such a technique doesn't work for graphene materials because of a mechanism called fluorescence quenching, which can "turn off" the fluorescence of nearby dye molecules.
"So we thought, how about we just put dye everywhere?" Huang said. "That way, the whole background lights up, and wherever you have graphene will be dark. It's an inverse strategy that turns out to work beautifully," he added.
When Huang and his group coated a graphene sample with fluorescein and put it under a fluorescence microscope - a much cheaper, readily available instrument - they obtained images as clear as those acquired with AFM and SEM.
The team named their new technique fluorescence quenching microscopy (FQM). (ANI)
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