Detection of Metoprolol in Human Biofluids and Pharmaceuticals via Ion-Transfer Voltammetry at the Nanoscopic Liquid/Liquid Interface Array

Huang, Xiao; Xie, Lisiqi; Lin, Xingyu; Su, Bin

doi:10.1021/acs.analchem.6b04099

Cited by 28 publications

(12 citation statements)

References 60 publications

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“…Micro-ITIES arrays were also modified with mesoporous silica channels prepared ex-situ by a Stöber-like method [36]. The vertically aligned channels obtained have demonstrated their potential for analytical applications [37][38][39][40]. We investigated here the adsorption of silica nanoparticles onto the ITIES and their impact on the electrochemical transfer behaviour of ions (e.g.…”

Section: Introductionmentioning

confidence: 99%

Ion transfer at polarised liquid-liquid interfaces modified with adsorbed silica nanoparticles

Collins

Hébrant

Herzog

2018

Electrochimica Acta

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The interface between two immiscible electrolyte solutions (ITIES) can act as a scaffold for the assembly of nanometer-sized objects. Here we followed the adsorption of silica nanoparticles of 12 nm diameter at the ITIES by AC voltammetry and their interactions with methylene blue (MB +), selected as a model ion, by cyclic voltammetry and UV-vis absorption spectroscopy. We determined the association constant, , of adsorption of MB + onto silica nanoparticles to be 1.66 10 5 , which indicated a strong affinity between them. This strong affinity shifted the Gibbs free energy of transfer by-8.9 kJ mol-1. This is in contrast with the other two ions investigated (Eosin B and tetraethylammonium), which demonstrated low affinity for the silica nanoparticles. By combining the ability of silica to adsorb onto the ITIES and their affinity for MB + , we were able to accumulate MB + at the ITIES.

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Section: Introductionmentioning

confidence: 99%

Ion transfer at polarised liquid-liquid interfaces modified with adsorbed silica nanoparticles

Collins

Hébrant

Herzog

2018

Electrochimica Acta

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“…Ic= Iw-Ig/Ig (2) Where Ig and Iw are the intensity ratio of the acceptor and donor before and after treated with glucose solution. As EDC mediated all the amine groups on the surface of GBP-Rluc with the carboxylic groups on the surface of CdTe, the bioconjugation process is non-site specific [23,30], the excess amount of either GBP-Rluc or QDs may affect the sensitivity of this sensor.…”

Section: Assay Optimizationmentioning

confidence: 99%

“…Body fluids such as urine [2][3][4], sweat [5][6][7][8] and tear [9][10][11][12] thus have been widely used as testing samples. It has been found that tear glucose level is around 5 times higher in diabetes patients than in normal people and the tear glucose has been identified to have a positive correlation with the blood glucose based on previous research [13][14][15].…”

Section: Introductionmentioning

confidence: 99%

Bioluminescence Resonance Energy Transfer (BRET) Based Nanostructured Biosensor for Tear Glucose Detection

Zhan¹,

Chen²,

Tse³

et al. 2017

International Conference of Theoretical and Applied Nanoscience and Nanotechnology

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-The monitoring and management of blood glucose levels are key elements for people with diabetes to maintain their health. Here, we describe a bioluminescence resonance energy transfer (BRET) sensor for non-invasively detecting glucose molecules. The sensor is assembled by conjugating quantum dots CdTe (PL≈ 565nm), which is used as the acceptor, with a recombinant protein containing the bacterial glucose binding protein (GBP), at the N-terminal and a bioluminescent protein Renilla luciferase (Rluc), used as the donor, which is at the C-terminal. The distance between the BRET pair is initially far. In the presence of glucose, GBP binds glucose in a highly specific manner and the conformational change of resultant GBP brings a closer distance between the Rluc and QDs, results an increasing of the emission intensity of the QDs. The bioluminescence intensity of both around 470nm and 565nm are observed. The ratio of the acceptor (QDs) and the donor (Rluc) are also observed to increase with the increasing of the glucose concentration. This study laid a technical foundation for further exploration of non-invasive measurement systems for tear glucose.

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“…For example, nanoporous gold electrodes have been employed for the detection of DNAs in diluted biofluids . SNM modified electrodes have also illustrated excellent antifouling ability and allowed the direct detection of a variety of targets in complex samples and rat brain with high sensitivities . Our previous study shows that the SNM modified carbon fiber microelectrode (SNM/CFME) can work stably in rat brain up to 2 h .…”

Section: Introductionmentioning

confidence: 99%

Platinized Silica Nanoporous Membrane Electrodes for Low‐Fouling Hydrogen Peroxide Detection

Zhou

Ding

et al. 2020

ChemElectroChem

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Hydrogen peroxide (H 2 O 2 ) is an important molecule that is widely used or exists in foods, medicines, detergents and human body. Therefore, fast and accurate detection of H 2 O 2 is highly important in food security, disease diagnosis, etc. In this work, we report the fabrication of platinized silica nanoporous membrane (Pt@SNM) electrodes for the detection of H 2 O 2 in complex in vitro and in vivo environments. The porous structure of SNM can effectively confine the electrodeposition of Pt nanostructures and meanwhile prevent the adsorption of fouling species on the underlying electrode. In comparison with conventional electrodes for H 2 O 2 detection, the current one exhibited excellent antifouling ability and worked well in complex real samples. As we demonstrated that the Pt@SNM modified carbon fiber microelectrode could work pretty stably in cortex of rat brain up to 90 min. We believe that this methodology can be extended for electrochemical detection of many other species in strongly fouling media.[a] X.

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Detection of Metoprolol in Human Biofluids and Pharmaceuticals via Ion-Transfer Voltammetry at the Nanoscopic Liquid/Liquid Interface Array

Cited by 28 publications

References 60 publications

Ion transfer at polarised liquid-liquid interfaces modified with adsorbed silica nanoparticles

Ion transfer at polarised liquid-liquid interfaces modified with adsorbed silica nanoparticles

Bioluminescence Resonance Energy Transfer (BRET) Based Nanostructured Biosensor for Tear Glucose Detection

Platinized Silica Nanoporous Membrane Electrodes for Low‐Fouling Hydrogen Peroxide Detection

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