Carbon nanotubes in the liquid phase: Addressing the issue of dispersion

The inherent size and hollow geometry with extraordinary electronic and optical properties make carbon nanotubes (CNTs) promising building blocks for molecular or nanoscale devices. Unfortunately, their hydrophobic nature and their existence in the form of agglomerated and parallel bundles make this interesting material inadequately soluble or dispersible in most of the common solvents, which is crucial to their processing. Therefore, various ingenious techniques have been reported to disperse the CNTs in various solvents with different experimental conditions. However, by analyzing the published scientific research articles, it is evident that there is an important issue or misunderstanding between the term "dispersion" and "solubilization". As a result many researchers use the terms interchangeably, particularly when stating the interaction of CNTs with liquids, which causes confusion among the readers, students, and researchers. In this article, this fundamental issue is addressed in order to give basic insight to the researchers who are working with CNTs, as well as to the scientists who deal with nano-related research domains. The fundamental question when dealing with carbon nanotubes in liquids, particularly in water, is: are they dissolved or dispersed? In this article, we highlight and discuss this issue and controversy in literature considering their size, nature of existence in the liquid, stability, and their behavior in the liquid medium. Consequently, it is suggested to use the term dispersion rather than solution.