Leaflet-heterostructures by MWCNT self-assembly following electrospinning
Document Type
Article
Publication Date
2024
Department/School
Engineering Technology
Publication Title
iScience
Abstract
Electrospinning of nanocarbons such as graphene and carbon nanotubes typically produces mats composed of one-dimensional fibers where the carrier polymer encapsulates the nanocarbons. Recently it was found that decreasing the amount of carrier polymer in approaching the electrospinning-electrospray boundary for graphene suspensions resulted in retention of the graphene two-dimensional anisotropy with one-dimensional carrier polymer fibers connecting flakes. We explored a similar decrease in carrier polymer in MWCNT suspensions to investigate the network topology that might ensue. Unexpectedly, two-dimensional leaflet meso-networks were obtained wherein the leaflets comprise laterally aligned MWCNTs one to several nanotubes thick. A mechanism based on capillary force -driven MWCNT self -assembly activated by menisci formed during drying of electrospun fibers is presented. Such materials offer new approaches to producing high surface -area coatings for catalytic and energy applications and suggest ways of formulating two-dimensional MWCNT assemblies in metal foams and other open -cell porous materials.
Link to Published Version
Recommended Citation
Texter, J., Li, Q., & Yan, F. (2024). Leaflet-heterostructures by MWCNT self-assembly following electrospinning. iScience, 27(7), 110186. https://doi.org/10.1016/j.isci.2024.110186
Comments
J. Texter is a faculty member in EMU's School of Engineering.