TY - JOUR
T1 - The exploration of novel fluorescent copper-cysteamine nanosheets for sequential detection of Fe3+and dopamine and fabrication of molecular logic circuits
AU - Huang, Zhenzhen
AU - Song, Wenzhi
AU - Li, Yue
AU - Wang, Lingyun
AU - Pandey, Nil Kanatha
AU - Chudal, Lalit
AU - Wang, Min
AU - Li, Yachun
AU - Zhao, Lanlan
AU - Yin, Wanzhong
AU - Chen, Wei
N1 - Publisher Copyright:
© The Royal Society of Chemistry 2020.
PY - 2020/10/7
Y1 - 2020/10/7
N2 - Herein, newly emerged copper-cysteamine (Cu-Cy) nanosheets with red fluorescence and a good stability were explored as a new type of probe for Fe3+and dopamine detection. The sequential detection of Fe3+and dopamine by the use of Cu-Cy nanosheets isviaa fluorescence “ON-OFF-ON” mechanism and the Cu-Cy nanosheets showed highly selective and very sensitive detection for Fe3+with fluorescence quenching owing to the paramagnetic nature of Fe3+. Furthermore, this fluorescence quenching can be recovered upon the addition of dopamine, which can be used for the development of an “OFF-ON” fluorescence method for the detection of dopamine. The Cu-Cy provides a wider detection range (1-500 μM for Fe3+and 1-20 μM for dopamine) than most of the other fluorescent probes reported, owing to the large two-dimensional surface area and the high chemical reactivity of the Cu-Cy. Additionally, the sensing strategy was explored by designing molecular logic gates (NOT, XNOR, and NOR) and multiple-input logic circuits in order to convert the molecular information, such as metal ion chelation and oxidation, to detectable fluorescent signals.
AB - Herein, newly emerged copper-cysteamine (Cu-Cy) nanosheets with red fluorescence and a good stability were explored as a new type of probe for Fe3+and dopamine detection. The sequential detection of Fe3+and dopamine by the use of Cu-Cy nanosheets isviaa fluorescence “ON-OFF-ON” mechanism and the Cu-Cy nanosheets showed highly selective and very sensitive detection for Fe3+with fluorescence quenching owing to the paramagnetic nature of Fe3+. Furthermore, this fluorescence quenching can be recovered upon the addition of dopamine, which can be used for the development of an “OFF-ON” fluorescence method for the detection of dopamine. The Cu-Cy provides a wider detection range (1-500 μM for Fe3+and 1-20 μM for dopamine) than most of the other fluorescent probes reported, owing to the large two-dimensional surface area and the high chemical reactivity of the Cu-Cy. Additionally, the sensing strategy was explored by designing molecular logic gates (NOT, XNOR, and NOR) and multiple-input logic circuits in order to convert the molecular information, such as metal ion chelation and oxidation, to detectable fluorescent signals.
UR - http://www.scopus.com/inward/record.url?scp=85092536895&partnerID=8YFLogxK
U2 - 10.1039/d0tc02843f
DO - 10.1039/d0tc02843f
M3 - Article
AN - SCOPUS:85092536895
SN - 2050-7534
VL - 8
SP - 12935
EP - 12942
JO - Journal of Materials Chemistry C
JF - Journal of Materials Chemistry C
IS - 37
ER -