Long-Lasting Luminol Chemiluminescence Emission with 1,10-Phenanthroline-2,9-dicarboxylic Acid Copper(II) Complex on Paper

Lv, Congcong; Guo, Xiaoyan; Hou, Yue; Liu, Wei; Guo, Yanli; Zhang, Zixuan; Jin, Yan; Li, Baoxin

doi:10.1021/acsami.1c14563

Cited by 18 publications

(7 citation statements)

References 54 publications

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“…Chemiluminescence (CL) is a phenomenon of radiation produced by a chemical reaction without external excitation, which has been widely used for bioassays, imaging, and illumination applications. , The commercial CL bioassay is usually divided into glow and flash fashions. Flash fashion CL occurs quickly, , while glow fashion CL displays a slow kinetic emission curve. , CL for both basic research and commercial bioassay is mainly conducted in the eye-visible region with a molecular luminophore, such as luminol, peroxy oxalate, dioxetane, lucigenin, KMnO 4 , and lophenol . The waveband of molecular CL is limited to 780 nm, ,− and near infrared (NIR) emission is strongly anticipated for CL evolution.…”

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confidence: 99%

“…Flash fashion CL occurs quickly, 3,4 while glow fashion CL displays a slow kinetic emission curve. 5,6 CL for both basic research and commercial bioassay is mainly conducted in the eye-visible region with a molecular luminophore, such as luminol, 7 peroxy oxalate, 8 dioxetane, 9 lucigenin, 10 KMnO 4 , 11 and lophenol. 10 The waveband of molecular CL is limited to 780 nm, 9,12−14 and near infrared (NIR) emission is strongly anticipated for CL evolution.…”

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confidence: 99%

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A General Route for Chemiluminescence of n-Type Au Nanocrystals

Zhang

Gao

et al. 2022

Anal. Chem.

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The photoluminescence, electroluminescence, and electrochemiluminescence from nanocrystals (NCs) have been extensively exploited for both fundamental and applied investigation over two decades, while the understanding of chemiluminescence (CL) from NCs is still far from clear by now. Herein, a general route for triggering CL from NC luminophore is proposed by extensively exploiting the charge transfer between n-type NCs and oxidants. Oxidants, such as K2S2O8, H2O2, KMnO4, and NaClO, can chemically inject the hole onto the valence band (VB) of methionine-capped n-type AuNCs (Met@AuNCs) and enable the occurrence of efficient radiative-charge-recombination between the chemically injected exogenous VB hole and the pre-existed endogenous conduction band (CB) electron, which eventually results in single-color and defect-involved CL with the maximum emission wavelength around 824 nm. The CL of Met@AuNCs/oxidant is qualified for ultrasensitive CL immunoassay in a similar procedure to the biotin–avidin and magnetic separation involved commercial CL immunoassay and exhibits acceptable performance for linearly determining carcinoembryonic antigen from 50 pg/mL to 100 ng/mL with a limit of detection of 10 pg/mL (S/N = 3). This strategy provides a general route to develop nanoparticulate CL luminophores and might eventually enable CL multiplexing assay via extensively exploiting the CL of different wavebands.

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confidence: 99%

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confidence: 99%

A General Route for Chemiluminescence of n-Type Au Nanocrystals

Zhang

Gao

et al. 2022

Anal. Chem.

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“…According to the work of Zang et al, O 2 •– and H 2 O 2 could generate OH • , which explained the source of OH • in this CL system. In the work of Lv et al, O 2 •– could generate H 2 O 2 and 1 O 2 , which supported the existence of 1 O 2 . The mechanism of the Zn-Py-TPE-TCPO system can be seen in Scheme .…”

Section: Resultsmentioning

confidence: 81%

“…The comparison results in Figure S7 indicated that the above mechanism was suitable for the Zn-Py-TPE-TCPO system. According to the work of Zang et 43 which supported the existence of 1 O 2 . The mechanism of the Zn-Py-TPE-TCPO system can be seen in Scheme 2.…”

Section: ■ Results and Discussionmentioning

confidence: 99%

Tetrakis(4-pyridylphenyl)ethylene-based Zinc Metal–Organic Framework with Aggregation-Induced Chemiluminescence Emission on a Paper Platform for Formaldehyde Detection in Breath

Guo

Hou

et al. 2022

Anal. Chem.

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Volatile formaldehyde (FA) in exhaled breath (EB) is considered as a biomarker for lung cancer (LC). On-the-spot selective and sensitive detection of gaseous FA is rather important for LC screening and diagnosis. Herein, a tetrakis(4-pyridylphenyl)ethylene (Py-TPE)-based zinc metal–organic framework (MOF) with excellent aggregation-induced emission (AIE) property was utilized for absorption and selective detection of FA in EB. The porous Zn-Py-TPE served as a gaseous confinement cavity for the adsorption of FA in EB. Interestingly, Zn-Py-TPE was aggregated on paper, and then aggregation-induced chemiluminescence (CL) emission can be triggered by only adding bis(2,4,6-trichlorophenyl)oxalate (TCPO). Though without H2O2, the CL of Zn-Py-TPE-TCPO was enhanced greatly by FA. FA promoted the aggregation of Zn-Py-TPE on paper by forming halogen bonding between FA and Zn-Py-TPE, which contributed to the better selectivity. FA can also stimulate the production of more singlet oxygen (1O2) in the Zn-Py-TPE-TCPO CL system. Hence, FA could be detected via the proposed Zn-Py-TPE-TCPO system with a quantification linear range of 1.0–100.0 ppb and detection limit of 0.3 ppb. This portable, low-cost, and sensitive paper-based platform can achieve trace FA detection in EB and is expected to provide an on-the-spot screening platform for lung cancer.

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“…Paper 32 as an appropriate substrate makes great contributions to MOFs' immobilization and provides a sufficient reacting carrier. 33 UiO-66 was synthesized by an in situ method on the paper surface. After acetone was adsorbed by the UiO-66@paper, CL reagents in the liquid phase were added to permeate the whole paper.…”

Section: Introductionmentioning

confidence: 99%