The coloration of carbon nanotube (CNT) fibers (CNTFs)
is a long-lasting
challenge because of the intrinsic black color and chemically inert
surfaces of CNTs, which cannot satisfy the aesthetic and fashion requirements
and thus significantly restrict their performance in many cutting-edge
fields. Recently, a structural coloration method of CNTFs was developed
by our group using atomic layer deposition (ALD) technology. However,
the ALD-based structural coloration method of CNTFs is expensive,
time-consuming, and not suitable for the large-scale production of
colorful CNTFs. Herein, we developed a very simple and scalable liquid-phase
method to realize the structural coloration of CNTFs. A SiO2/ethanol dispersion containing SiO2 nanospheres with controllable
sizes was synthesized. The SiO2 nanospheres could self-assemble
into photonic crystal layers on the surface of CNTFs and exhibited
brilliant colors. The colors of SiO2 nanoparticle-coated
CNTFs could be easily changed by tuning the sizes of SiO2 nanospheres. This method provides a simple, effective, and promising
way for the large-scale production of colorful CNTFs