AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |
Back to Blog
Super flux12/27/2023 ![]() Therefore, the ability to control the water flow in nanotubes as described in the paper is of great significance in fabricating highly efficient nanofluidic devices with numerous applications such as contaminant selectivity, energy conversion, and desalination processing.Įven though the study identified some challenges to overcome, Dr. The study identified nanofluidic through functionalized polar and nonpolar nanotubes as a flourishing field with vast opportunities. This also helped in the tuning of the water-nanotube interaction through increasing the hydrophobic or hydrophilic nature thus obtaining desirable structural and dynamical transitions. They also noted that polarity was a key parameter in structuring of water inside nanopores that further determined the mobility of confined water. hydrophobic, hydrophilic or a mixture of the two was proposed. Thus, a change in the water dynamics concerning the nature of the nanotube wall i.e. ![]() This included the structural characteristics of various confinements and their influence on the fluid mobility as well as the physical-chemical mechanisms exhibited by the water confined in both polar and nonpolar nanotubes.įor water confined in nanotubes, the authors noted that their flow and boundary conditions are determined by the intermolecular attractions between water and the nanopore walls. Their work is currently published in the research journal, Chemical Engineering Science.īriefly, the research team analyzed two aspects that impact on the behavior of confined water. Their main objective was to explore the changes in the interaction and confining distance between the water molecules and nanotube walls and their effects on freezing, wet/dry transitions and flow rates properties. Through the help of nanotubes functionalized with hydrophobic and hydrophilic sites, they also studied the effect of polarity heterogeneity over confined water properties. Carolina de Matos and Professor Marcia Barbosa looked carefully on the impact of hydrophobicity over the nanopore water transport that has exhibited potential influence on the fluid organization and mobility. Regarding this, scientists from the Universidade Federal do the Rio Grande do Sul: Dr. This requires the understanding of the behavior of the interfacial water and particularly the interaction between the water molecules and nanotube walls that plays a major role in the fluid-structure and dynamics. Thus, with the rapid increase in the applications of nanofluidic technology, effective methods for the fabrication of nanoscale fluidic systems are highly desirable. Unfortunately, despite the establishment of hydrodynamics, the fluid transport phenomena have not been fully explored. For instance, advances in nanotube synthesis and functionalization have paved the way for intensive research on mass transport through materials with nanochannels thus enabling experimental realization of initially formulated theories. Since the emergence of nanotechnology, its advancement has positively impacted different fields.
0 Comments
Read More
Leave a Reply. |