A ratiometric fluorescence sensor for ascorbic acid determination based on an AND-NAND logic pair.
AND-NAND logic pair
Ascorbic acid (AA)
Fluorescence ratio
MoO3 nanosheets
Non-purified CDs
Journal
Mikrochimica acta
ISSN: 1436-5073
Titre abrégé: Mikrochim Acta
Pays: Austria
ID NLM: 7808782
Informations de publication
Date de publication:
12 10 2021
12 10 2021
Historique:
received:
01
05
2021
accepted:
28
09
2021
entrez:
12
10
2021
pubmed:
13
10
2021
medline:
29
1
2022
Statut:
epublish
Résumé
An AND-NAND logic pair is reported based on non-purified carbon quantum dots (CDs) for ascorbic acid (AA) detection. In the logic operation, molybdenum oxide nanosheets (MoO
Identifiants
pubmed: 34637002
doi: 10.1007/s00604-021-05043-1
pii: 10.1007/s00604-021-05043-1
doi:
Substances chimiques
Ascorbic Acid
PQ6CK8PD0R
Types de publication
Journal Article
Research Support, Non-U.S. Gov't
Langues
eng
Sous-ensembles de citation
IM
Pagination
376Subventions
Organisme : National Natural Science Foundation of China
ID : 21277110
Informations de copyright
© 2021. The Author(s), under exclusive licence to Springer-Verlag GmbH Austria, part of Springer Nature.
Références
Margulies D, Melman G, Shanzer A (2005) Fluorescein as a model molecular calculator with reset capability. Nat Mater 4(10):768–771
pubmed: 16155575
Huang W, Zhou Y, Du J, Deng Y, He Y (2018) Versatile visual logic operations based on plasmonic switching in label-free molybdenum oxide nanomaterials. Anal Chem 90(3):2384–2388
pubmed: 29290105
Bonnet J, Yin P, Ortiz ME et al (2013) Amplifying genetic logic gates. Science 340(6132):599–603
pubmed: 23539178
Jiang XJ, Ng DK (2014) Sequential logic operations with a molecular keypad lock with four inputs and dual fluorescence outputs. Angew Chem Int Edit 53(39):10481–10484
Liu D, Chen W, Sun K et al (2011) Resettable, multi-readout logic gates based on controllably reversible aggregation of gold nanoparticles. Angew Chem Int Edit 50(18):4103–4107
Zhang Y, Shuai Z, Zhou H et al (2018) Single-molecule analysis of microRNA and logic operations using a smart plasmonic nanobiosensor. J Am Chem Soc 140(11):3988–3993
pubmed: 29504757
Hettie KS, Klockow JL, Glass TE (2014) Three-input logic gates with potential applications for neuronal imaging. J Am Chem Soc 136(13):4877–4880
pubmed: 24611584
Badeau BA, Comerford MP, Arakawa CK et al (2018) Engineered modular biomaterial logic gates for environmentally triggered therapeutic delivery. Nat Chem 10(3):251–258
pubmed: 29461528
pmcid: 5822735
Yan C, Guo Z, Liu Y et al (2018) A sequence-activated AND logic dual-channel fluorescent probe for tracking programmable drug release. Chem Sci 9(29):6176–6182
pubmed: 30090304
pmcid: 6062889
Fan D, Wang E, Dong S (2017) An intelligent universal system yields double results with half the effort for engineering a DNA “contrary logic pairs” library and various DNA combinatorial logic circuits. Mater Horiz 4(5):924–931
Huang W, Wang J, Du J et al (2019) Contrary logic pairs and circuits using a visually and colorimetrically detectable redox system consisting of MoO
Bigdeli A, Ghasemi F, Abbasi-Moayed S et al (2019) Ratiometric fluorescent nanoprobes for visual detection: design principles and recent advances-A review. Anal Chim Acta 1079:30–58
pubmed: 31387719
Liu SG, Han L, Li N et al (2019) A ratiometric fluorescent strategy for alkaline phosphatase activity assay based on g-C
Zhang X, Xiao Y, Qian X (2008) A ratiometric fluorescent probe based on FRET for imaging Hg
Cui Y, Chen F, Yin XB (2019) A ratiometric fluorescence platform based on boric-acid-functional Eu-MOF for sensitive detection of H
Lu H, Xu S (2021) CDs-MnO
pubmed: 34235328
pmcid: 8246696
Zhang J, Liu J, Wang M et al (2020) Determination of ascorbic acid and ascorbate oxidase based on quaternary CuInZnS QDs/thiochrome ratiometric fluorescence sensing system. Talanta 214:120814
pubmed: 32278419
Tian X, Fan Z (2021) One-step ratiometric fluorescence sensing of ascorbic acid in food samples by carbon dots-referenced lanthanide probe. J Photoch Photobio A 413:113261
Ju YJ, Li N, Liu SG et al (2019) Proton-controlled synthesis of red-emitting carbon dots and application for hematin detection in human erythrocytes. Anal Bioanal Chem 411:1159–1167
pubmed: 30617395
Xu X, Cen Y, Xu G et al (2019) A ratiometric fluorescence probe based on carbon dots for discriminative and highly sensitive detection of acetylcholinesterase and butyrylcholinesterase in human whole blood. Biosens Bioelectron 131:232–236
pubmed: 30849722
Wang Y, Yang Y, Liu W et al (2019) A carbon dot-based ratiometric fluorometric and colorimetric method for determination of ascorbic acid and of the activity of ascorbic acid oxidase. Microchim Acta 186(4):246
Jiang K, Sun S, Zhang L et al (2015) Red, green, and blue luminescence by carbon dots: full-color emission tuning and multicolor cellular imaging. Angew Chem Int Edit 54(18):5360–5363
Thangasamy P, Ilayaraja N, Jeyakumar D et al (2017) Electrochemical cycling and beyond: unrevealed activation of MoO
Ji F, Ren X, Zheng X et al (2016) 2D-MoO
pubmed: 27053379
Kim HS, Cook JB, Lin H et al (2017) Oxygen vacancies enhance pseudocapacitive charge storage properties of MoO
pubmed: 27918566
Bai H, Yi W, Li J et al (2016) Direct growth of defect-rich MoO
Dong WJ, Ham J, Jung GH et al (2016) Ultrafast laser-assisted synthesis of hydrogenated molybdenum oxides for flexible organic solar cells. J Mater Chem A 4(13):4755–4762
Wang R, Lu X, Hao L et al (2017) Enhanced and tunable photochromism of MoO
Cheng H, Kamegawa T, Mori K et al (2014) Surfactant-free nonaqueous synthesis of plasmonic molybdenum oxide nanosheets with enhanced catalytic activity for hydrogen generation from ammonia borane under visible light. Angew Chem Int Edit 53(11):2910–2914
Wang JH, Yang YH, Li H et al (2019) Stable and tunable plasmon resonance of molybdenum oxide nanosheets from the ultraviolet to the near-infrared region for ultrasensitive surface-enhanced Raman analysis. Chem Sci 10(25):6330–6335
pubmed: 31341587
pmcid: 6598644
Zhu XH, Zhao TB, Nie Z et al (2015) Non-redox modulated fluorescence strategy for sensitive and selective ascorbic acid detection with highly photo luminescent nitrogen-doped carbon nanoparticles via solid-state synthesis. Anal Chem 87(16):8524–8530
pubmed: 26202861
Moghadam MR, Dadfarnia S, Shabani AMH et al (2011) Chemometric-assisted kinetic-spectrophotometric method for simultaneous determination of ascorbic acid, uric acid, and dopamine. Anal Biochem 410(2):289–295
pubmed: 21078280
Ahvenainen R (1996) New approaches in improving the shelf life of minimally processed fruit and vegetables. Trends Food Sci Tech 7(6):179–187
Luo X, Zhang W, Han Y et al (2018) N, S Co-doped carbon dots based fluorescent “on-off-on” sensor for determination of ascorbic acid in common fruits. Food Chem 258:214–221
pubmed: 29655725
Liu J, Li D, Zhang K et al (2018) One-step hydrothermal synthesis of nitrogen-doped conjugated carbonized polymer dots with 31% efficient red emission for in vivo imaging. Small 14(15):e1703919
pubmed: 29508542
Ju YJ, Li N, Liu SG et al (2019) Proton-controlled synthesis of red-emitting carbon dots and application for hematin detection in human erythrocytes. Anal Bioanal Chem 411(6):1159–1167
pubmed: 30617395
Li R, An H, Huang W et al (2018) Molybdenum oxide nanosheets meet ascorbic acid: tunable surface plasmon resonance and visual colorimetric detection at room temperature. Sensor Actuat B-Chem 259:59–63
Liu ML, Chen BB, Liu ZX et al (2016) Highly selective and sensitive detection of 2,4,6-trinitrophenol by using newly developed blue-green photoluminescent carbon nanodots. Talanta 161:875–880
pubmed: 27769497
Gehlen MH (2020) The centenary of the Stern-Volmer equation of fluorescence quenching: from the single line plot to the SV quenching map. J Photoch Photobio C 42:100338
Chen H, Liu Y, Li H et al (2019) Non-oxidation reduction strategy for highly selective detection of ascorbic acid with dual-ratio fluorescence and colorimetric signals. Sensor Actuat B-Chem 281:983–988
Hinoue T, Shigenoi Y, Sugino M et al (2012) Regulation of π-stacked anthracene arrangement for fluorescence modulation of organic solid from monomer to excited oligomer emission. Chem-Eur J 18(15):4634–4643
pubmed: 22378465