Graphdiyne nanosheets as a platform for accurate copper(ii) ion detection via click chemistry and fluorescence resonance energy transfer | Zendy

Chenchen Ge | Zendy; Jiaofu Li | Zendy; Dou Wang | Zendy; Kongpeng Lv | Zendy; Quan Liu | Zendy; Yan Shen | Zendy; Xiaoqing Zhuang | Zendy; Wankun Luo | Zendy; Zongze Wu | Zendy; Yuhua Zhang | Zendy; Liangliang Shi | Zendy; Liping Liu | Zendy; Shaowen Bao | Zendy; Han Zhang | Zendy

Open Access

Graphdiyne nanosheets as a platform for accurate copper(ii) ion detection via click chemistry and fluorescence resonance energy transfer

Author(s) -

Chenchen Ge,

Jiaofu Li,

Dou Wang,

Kongpeng Lv,

Quan Liu,

Yan Shen,

Xiaoqing Zhuang,

Wankun Luo,

Zongze Wu,

Yuhua Zhang,

Liangliang Shi,

Liping Liu,

Shaowen Bao,

Han Zhang

Publication year - 2021

Publication title -

rsc advances

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.746

H-Index - 148

ISSN - 2046-2069

DOI - 10.1039/d0ra08595b

Subject(s) - click chemistry , copper , förster resonance energy transfer , fluorescence , quenching (fluorescence) , ion , chemistry , energy transfer , resonance (particle physics) , nanotechnology , analytical chemistry (journal) , combinatorial chemistry , photochemistry , materials science , organic chemistry , chemical physics , atomic physics , physics , optics

A novel sensing platform for sensitive detection of copper(ii) ions (Cu 2+ ) in living cells and body fluids was developed by taking advantage of the excellent fluorescence quenching ability of graphdiyne (GDY) and the high specificity of click chemistry for the first time.

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