Electric insulating themral conducting without signal interference for 5G
(Low dielectric property), with polymeric properties such as flexibility, adhesion and low density, etc.
Thermal conductivity increase as high as 2~3 times with as low as 0.5 wt% BNNT addition into conventional thermal materials
Anti-corrosive, acid/chemical resistive, shock (vibration damping) absorbing coatings, etc.
Single layered thermally stable LIB separators even at 200℃
High ion conductivity/electrolyte wettability
Improved tensile strength and long-term stability
Lighter than convnetional ceramic coated separators
Additive for solid electrolytes for All-Solid State batteries
"Enhancement of Columbic Efficiency and Capacity of Li-Ion Batteries using a Boron Nitride Nanotubes-Dispersed-Electrolyte with High Ionic Conductivity", ACS Materials Letters, Dolly Yadav, J. H. Jung et al. 2023 (just accepted)
Low temperature active catalysts
Small amount of noble metal nanoparticles (as low as 0.1 wt%) embedded BNNT catalysts active at even lower than ~200℃
Improved long-term durability based on thermal/chemical stability
BNCT(Boron Neutron Capture therapy) may treat cancers more accurately than conventional ones, reduced irradiation time, low dose, and less side effects, etc.
Biocompatible materials
Tissues screening, anti-biotic, and drug delivery, etc.