Cite
Forensic-level security using non-imitable anticounterfeiting films: Humidity-sensitive 1D photonic crystals with UV-tunable color response and their encryption using small aldehydes.
MLA
Gyu Hwang, Tae, et al. “Forensic-Level Security Using Non-Imitable Anticounterfeiting Films: Humidity-Sensitive 1D Photonic Crystals with UV-Tunable Color Response and Their Encryption Using Small Aldehydes.” Chemical Engineering Journal, vol. 473, Oct. 2023, p. N.PAG. EBSCOhost, https://doi.org/10.1016/j.cej.2023.145448.
APA
Gyu Hwang, T., Woo Cho, D., Hwang, D.-H., Jin Jung, Y., Park, I., Eun Kim, G., & Mok Park, J. (2023). Forensic-level security using non-imitable anticounterfeiting films: Humidity-sensitive 1D photonic crystals with UV-tunable color response and their encryption using small aldehydes. Chemical Engineering Journal, 473, N.PAG. https://doi.org/10.1016/j.cej.2023.145448
Chicago
Gyu Hwang, Tae, Dong Woo Cho, Do-Hoon Hwang, Yu Jin Jung, Ikbum Park, Gyeong Eun Kim, and Jong Mok Park. 2023. “Forensic-Level Security Using Non-Imitable Anticounterfeiting Films: Humidity-Sensitive 1D Photonic Crystals with UV-Tunable Color Response and Their Encryption Using Small Aldehydes.” Chemical Engineering Journal 473 (October): N.PAG. doi:10.1016/j.cej.2023.145448.