Premium
Black Phosphorus (BP) Nanodots for Potential Biomedical Applications
Author(s) -
Lee Hyun Uk,
Park So Young,
Lee Soon Chang,
Choi Saehae,
Seo Soonjoo,
Kim Hyeran,
Won Jonghan,
Choi Kyuseok,
Kang Kyoung Suk,
Park Hyun Gyu,
Kim HeeSik,
An Ha Rim,
Jeong KwangHun,
Lee YoungChul,
Lee Jouhahn
Publication year - 2016
Publication title -
small
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 3.785
H-Index - 236
eISSN - 1613-6829
pISSN - 1613-6810
DOI - 10.1002/smll.201502756
Subject(s) - nanodot , black phosphorus , fluorescence , materials science , aqueous solution , nanotechnology , chemical engineering , chemistry , optoelectronics , optics , organic chemistry , physics , engineering
Recently, the appeal of 2D black phosphorus (BP) has been rising due to its unique optical and electronic properties with a tunable band gap (≈0.3–1.5 eV). While numerous research efforts have recently been devoted to nano‐ and optoelectronic applications of BP, no attention has been paid to promising medical applications. In this article, the preparation of BP‐nanodots of a few nm to <20 nm with an average diameter of ≈10 nm and height of ≈8.7 nm is reported by a modified ultrasonication‐assisted solution method. Stable formation of nontoxic phosphates and phosphonates from BP crystals with exposure in water or air is observed. As for the BP‐nanodot crystals’ stability (ionization and persistence of fluorescent intensity) in aqueous solution, after 10 d, ≈80% at 1.5 mg mL −1 are degraded (i.e., ionized) in phosphate buffered saline. They showed no or little cytotoxic cell‐viability effects in vitro involving blue‐ and green‐fluorescence cell imaging. Thus, BP‐nanodots can be considered a promising agent for drug delivery or cellular tracking systems.