| Literature DB >> 33314478 |
Nan Wei1, Ying Tian2, Yongping Liao1, Natsumi Komatsu3, Weilu Gao3, Alina Lyuleeva-Husemann3, Qiang Zhang1, Aqeel Hussain1, Er-Xiong Ding1, Fengrui Yao4, Janne Halme1, Kaihui Liu4, Junichiro Kono3,5,6, Hua Jiang1, Esko I Kauppinen1.
Abstract
Although single-wall carbon nanotubes (SWCNTs) exhibit various colors in suspension, directly synthesized SWCNT films usually appear black. Recently, a unique one-step method for directly fabricating green and brown films has been developed. Such remarkable progress, however, has brought up several new questions. The coloration mechanism, potentially achievable colors, and color controllability of SWCNTs are unknown. Here, a quantitative model is reported that can predict the specific colors of SWCNT films and unambiguously identify the coloration mechanism. Using this model, colors of 466 different SWCNT species are calculated, which reveals a broad spectrum of potentially achievable colors of SWCNTs. The calculated colors are in excellent agreement with existing experimental data. Furthermore, the theory predicts the existence of many brilliantly colored SWCNT films, which are experimentally expected. This study shows that SWCNTs as a form of pure carbon, can display a full spectrum of vivid colors, which is expected to complement the general understanding of carbon materials.Entities:
Keywords: carbon nanotube thin films; color range; nanomaterials; pigments; quantitative coloration model
Year: 2020 PMID: 33314478 DOI: 10.1002/adma.202006395
Source DB: PubMed Journal: Adv Mater ISSN: 0935-9648 Impact factor: 30.849