Junseong Ahn, Yongrok Jeong, Mingu Kang, Jihyeon Ahn, Suchithra Padmajan Sasikala, Inyeong Yang, Ji-Hwan Ha, Soon Hyoung Hwang, Sohee Jeon, Jimin Gu, Jungrak Choi, Byung-Ho Kang, Sang Ouk Kim, Sanha Kim, Junhyuk Choi, Jun-Ho Jeong, Inkyu Park
Nanomaterial-based yarns have been actively developed owing to their advantageous features, namely, high surface-area-to-volume ratios, flexibility, and unusual material characteristics such as anisotropy in electrical/thermal conductivity. The superior properties of the nanomaterials can be directly imparted and scaled-up to macro-sized structures. However, most nanomaterial-based yarns have thus far, been fabricated with only organic materials such as polymers, graphene, and carbon nanotubes. This paper presents a novel fabrication method for fully inorganic nanoribbon yarn, expanding its applicability by bundling highly aligned and suspended nanoribbons made from various inorganic materials (e...
March 29, 2024: Small