31 results on '"Chen, Hong-Yuan"'
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2. Spectroscopic and voltammetric studies on a lanthanum hexacyanoferrate modified electrode
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Liu, Shou-Qing and Chen, Hong-Yuan
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PLATINUM electrodes , *LANTHANUM compounds , *ELECTROCHEMISTRY - Abstract
A platinum electrode modified with lanthanum hexacyanoferrate (LaHCF) was prepared by electrochemical scanning and characterized by Fourier transform infrared spectroscopy, X-ray powder diffraction (XRD), scanning electron microscopy (SEM) and voltammetry. The results show that the deposit on the platinum substrate is composed of lanthanum potassium hexacyanoferrate (II) tetrahydrate. The electrochemical behavior of the LaHCF modified electrode was investigated preliminarily by voltammetry, and the experiments showed that hydrogen ion has a considerable effect on the electrochemical behavior of the modified electrode. [Copyright &y& Elsevier]
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- 2002
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3. An Integrated Dual‐Functional Nanotool Capable of Studying Single‐Cell Epigenetics and Programmable Gene Regulation.
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Shi, Xiao‐Mei, Xu, Yi‐Tong, Wang, Bing, Li, Zheng, Yu, Si‐Yuan, Dong, Hang, Zhao, Wei‐Wei, Jiang, Dechen, Chen, Hong‐Yuan, and Xu, Jing‐Juan
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GENETIC regulation , *EPIGENETICS , *ADIPOSE tissues , *NUCLEOTIDE sequence , *DNA sequencing , *DEOXYRIBOZYMES , *FAT - Abstract
Single‐cell epigenetics is envisioned to decipher manifold epigenetic phenomena and to contribute to our accurate knowledge about basic epigenetic mechanisms. Engineered nanopipette technology has gained momentum in single‐cell studies; however, solutions to epigenetic questions remain unachieved. This study addresses the challenge by exploring N6‐methyladenine (m6A)‐bearing deoxyribozyme (DNAzyme) confined within a nanopipette for profiling a representative m6A‐modifying enzyme, fat mass and obesity‐associated protein (FTO). Electroosmotic intracellular extraction of FTO could remove the m6A and cause DNAzyme cleavage, leading to the altered ionic current signal. Because the cleavage can release a DNA sequence, we simultaneously program it as an antisense strand against FTO‐mRNA, intracellular injection of which has been shown to induce early stage apoptosis. This nanotool thus features the dual functions of studying single‐cell epigenetics and programmable gene regulation. [ABSTRACT FROM AUTHOR]
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- 2023
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4. An Integrated Dual‐Functional Nanotool Capable of Studying Single‐Cell Epigenetics and Programmable Gene Regulation.
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Shi, Xiao‐Mei, Xu, Yi‐Tong, Wang, Bing, Li, Zheng, Yu, Si‐Yuan, Dong, Hang, Zhao, Wei‐Wei, Jiang, Dechen, Chen, Hong‐Yuan, and Xu, Jing‐Juan
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GENETIC regulation , *EPIGENETICS , *ADIPOSE tissues , *NUCLEOTIDE sequence , *DNA sequencing , *DEOXYRIBOZYMES , *FAT - Abstract
Single‐cell epigenetics is envisioned to decipher manifold epigenetic phenomena and to contribute to our accurate knowledge about basic epigenetic mechanisms. Engineered nanopipette technology has gained momentum in single‐cell studies; however, solutions to epigenetic questions remain unachieved. This study addresses the challenge by exploring N6‐methyladenine (m6A)‐bearing deoxyribozyme (DNAzyme) confined within a nanopipette for profiling a representative m6A‐modifying enzyme, fat mass and obesity‐associated protein (FTO). Electroosmotic intracellular extraction of FTO could remove the m6A and cause DNAzyme cleavage, leading to the altered ionic current signal. Because the cleavage can release a DNA sequence, we simultaneously program it as an antisense strand against FTO‐mRNA, intracellular injection of which has been shown to induce early stage apoptosis. This nanotool thus features the dual functions of studying single‐cell epigenetics and programmable gene regulation. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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- View/download PDF
5. Electrochemical Single‐Cell Protein Therapeutics Using a Double‐Barrel Nanopipette.
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Shi, Xiao‐Mei, Xu, Yi‐Tong, Zhou, Bing‐Yu, Wang, Bing, Yu, Si‐Yuan, Zhao, Wei‐Wei, Jiang, Dechen, Chen, Hong‐Yuan, and Xu, Jing‐Juan
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PROTEINS , *NUCLEIC acids , *HYDROGEN peroxide , *THERAPEUTICS , *OXIDATIVE stress , *CELL populations - Abstract
Single‐cell protein therapeutics is expected to promote our in‐depth understanding of how a specific protein with a therapeutic dosage treats the cell without population averaging. However, it has not yet been tackled by current single‐cell nanotools. We address this challenge by the use of a double‐barrel nanopipette, in which one lumen was used for electroosmotic cytosolic protein delivery and the other was customized for ionic evaluation of the consequence. Upon injection of protein DJ‐1 through the delivery lumen, upregulation of the antioxidant protein could protect neural PC‐12 cells against oxidative stress from phorbol myristate acetate exposure, as deduced by targeting of the cytosolic hydrogen peroxide by the detecting lumen. The nanotool developed in this study for single‐cell protein therapeutics provides a perspective for future single‐cell therapeutics involving different therapeutic modalities, such as peptides, enzymes and nucleic acids. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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6. Electrochemical Single‐Cell Protein Therapeutics Using a Double‐Barrel Nanopipette.
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Shi, Xiao‐Mei, Xu, Yi‐Tong, Zhou, Bing‐Yu, Wang, Bing, Yu, Si‐Yuan, Zhao, Wei‐Wei, Jiang, Dechen, Chen, Hong‐Yuan, and Xu, Jing‐Juan
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PROTEINS , *NUCLEIC acids , *HYDROGEN peroxide , *THERAPEUTICS , *OXIDATIVE stress , *CELL populations - Abstract
Single‐cell protein therapeutics is expected to promote our in‐depth understanding of how a specific protein with a therapeutic dosage treats the cell without population averaging. However, it has not yet been tackled by current single‐cell nanotools. We address this challenge by the use of a double‐barrel nanopipette, in which one lumen was used for electroosmotic cytosolic protein delivery and the other was customized for ionic evaluation of the consequence. Upon injection of protein DJ‐1 through the delivery lumen, upregulation of the antioxidant protein could protect neural PC‐12 cells against oxidative stress from phorbol myristate acetate exposure, as deduced by targeting of the cytosolic hydrogen peroxide by the detecting lumen. The nanotool developed in this study for single‐cell protein therapeutics provides a perspective for future single‐cell therapeutics involving different therapeutic modalities, such as peptides, enzymes and nucleic acids. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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- View/download PDF
7. An Integrated Electrochemical Nanodevice for Intracellular RNA Collection and Detection in Single Living Cell.
- Author
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Wang, Hai‐Yan, Ruan, Yi‐Fan, Zhu, Li‐Bang, Shi, Xiao‐Mei, Zhao, Wei‐Wei, Chen, Hong‐Yuan, and Xu, Jing‐Juan
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METASTATIC breast cancer , *RNA , *BREAST cancer , *EXONUCLEASES , *RNA analysis , *ONCOGENES - Abstract
New tools for single‐cell interrogation enable deeper understanding of cellular heterogeneity and associated cellular behaviors and functions. Information of RNA expression in single cell could contribute to our knowledge of the genetic regulatory circuits and molecular mechanism of disease development. Although significant progresses have been made for intracellular RNA analysis, existing methods have a trade‐off between operational complexity and practical feasibility. We address this challenge by combining the ionic current rectification property of nanopipette reactor with duplex‐specific nuclease‐assisted hybridization chain reaction for signal amplification to realize a simple and practical intracellular nanosensor with minimal invasiveness, which enables single‐cell collection and electrochemical detection of intracellular RNA with cell‐context preservation. Systematic studies on differentiation of oncogenic miR‐10b expression levels in non‐malignant breast cells, metastatic breast cancer cells as well as non‐metastatic breast cancer cells were then realized by this nanotool accompanied by assessment of different drugs effects. This work has unveiled the ability of electrochemistry to probe intracellular RNA and opened new opportunities to study the gene expression and heterogeneous complexity under physiological conditions down to single‐cell level. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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8. An Integrated Electrochemical Nanodevice for Intracellular RNA Collection and Detection in Single Living Cell.
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Wang, Hai‐Yan, Ruan, Yi‐Fan, Zhu, Li‐Bang, Shi, Xiao‐Mei, Zhao, Wei‐Wei, Chen, Hong‐Yuan, and Xu, Jing‐Juan
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METASTATIC breast cancer , *RNA , *BREAST cancer , *EXONUCLEASES , *RNA analysis , *ONCOGENES - Abstract
New tools for single‐cell interrogation enable deeper understanding of cellular heterogeneity and associated cellular behaviors and functions. Information of RNA expression in single cell could contribute to our knowledge of the genetic regulatory circuits and molecular mechanism of disease development. Although significant progresses have been made for intracellular RNA analysis, existing methods have a trade‐off between operational complexity and practical feasibility. We address this challenge by combining the ionic current rectification property of nanopipette reactor with duplex‐specific nuclease‐assisted hybridization chain reaction for signal amplification to realize a simple and practical intracellular nanosensor with minimal invasiveness, which enables single‐cell collection and electrochemical detection of intracellular RNA with cell‐context preservation. Systematic studies on differentiation of oncogenic miR‐10b expression levels in non‐malignant breast cells, metastatic breast cancer cells as well as non‐metastatic breast cancer cells were then realized by this nanotool accompanied by assessment of different drugs effects. This work has unveiled the ability of electrochemistry to probe intracellular RNA and opened new opportunities to study the gene expression and heterogeneous complexity under physiological conditions down to single‐cell level. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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9. Ultrathin platinum film covered high-surface-area nanoporous gold for methanol electro-oxidation
- Author
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Du, Ying, Xu, Jing-Juan, and Chen, Hong-Yuan
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METALLIC films , *PLATINUM , *COLLOIDAL gold , *POROUS materials , *METHANOL , *OXIDATION , *CATALYSIS , *ELECTROCHEMISTRY - Abstract
Abstract: An ultrathin platinum film is fabricated on a nanoporous gold (NPG) scaffold through a catalytic chemical deposition method. The morphology and active surface area of the deposited Pt film, which will greatly influence the electro-catalytic properties of the catalyst, can be controlled by adjusting the deposition condition. Compared with bare NPG and high Pt loaded NPG, the performances of methanol electro-oxidation on the low-Pt-content bimetallic film are greatly improved, both in its catalytic current enhancement and signal stability. The best condition for methanol oxidation can be achieved when the area ratio of deposited Pt and uncovered Au was 3:1. [Copyright &y& Elsevier]
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- 2009
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10. Direct electrochemistry and reagentless biosensing of glucose oxidase immobilized on chitosan wrapped single-walled carbon nanotubes
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Zhou, Yi, Yang, Hui, and Chen, Hong-Yuan
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ELECTROCHEMISTRY , *GLUCOSE , *CARBON nanotubes , *SCANNING electron microscopy - Abstract
Abstract: Single-walled carbon nanotubes (SWCNTs) selectively wrapped by a water-soluble, environmentally friendly, biocompatible polymer chitosan (CHI) were employed for the construction of a bioelectrochemical platform for the direct electron transfer (DET) of glucose oxidase (GOD) and biosensing purposes. Scanning electron microscopy and Raman spectroscopy were used to investigate the properties of the SWCNT–CHI film. The results show that the preferentially wrapped small-diameter SWCNTs are dispersed within the CHI film and exist on the surface of the electrode as small bundles. The DET between GOD and the electrode surface was observed with a formal potential of about ca. −460mV vs. SCE in phosphate buffer solution. The heterogeneous electron transfer rate constant and the surface coverage of GOD are estimated to be 3.0s−1 and 1.3×10−10 mol/cm2, respectively. The experimental results demonstrate that the immobilized GOD retains its catalytic activity towards the oxidation of glucose. Such a GOD/SWCNT–CHI film-based biosensor not only exhibits a rapid response time, a wide linear rang and a low detection limits at a detection potential of −400mV but also shows the effective anti-interference capability. Significantly improved analytical capabilities of the GOD/SWCNT–CHI/GC electrode could be ascribed to the unique properties of the individual SWCNTs and to the biocompatibility of CHI. [Copyright &y& Elsevier]
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- 2008
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11. Opto–magnetic interaction between electrochemiluminescent CdS : Mn film and Fe3O4nanoparticles and its application to immunosensingElectronic supplementary information (ESI) available: The experimental details, TEM images of CdS NCs and Mn2+doped CdS NCs, Fe3O4nanoparticles, XPS of Mn2+doped CdS NCs, UV-Vis absorption spectrum and magnetization curve of Fe3O4nanoparticles, CV and ECL curves of CdS : Mn NCs film in absence and presence of oxygen. See DOI: 10.1039/c003124k
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Shan, Yun, Xu, Jing-Juan, and Chen, Hong-Yuan
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CHEMILUMINESCENCE , *MONOMOLECULAR films , *NANOPARTICLES , *IMMUNOSENESCENCE , *CHEMINFORMATICS , *THERMOGRAVIMETRY , *CADMIUM sulfide , *ELECTROCHEMISTRY - Abstract
This work firstly reports an opto–magnetic interaction–induced enhancement of electrochemiluminescence (ECL) from CdS : Mn nanocrystals (NCs) film by superparamagnetic Fe3O4nanoparticles and its application to sensitive immunosensing. [ABSTRACT FROM AUTHOR]
- Published
- 2010
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12. Nanochannels Photoelectrochemical Biosensor.
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Zhang, Nan, Ruan, Yi-Fan, Zhang, Li-Bin, Zhao, Wei-Wei, Xu, Jing-Juan, and Chen, Hong-Yuan
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PHOTOELECTROCHEMICAL cells , *NANOSTRUCTURED materials , *BIOSENSORS , *ELECTROCHEMISTRY , *NANOCOMPOSITE materials - Abstract
Nanochannels have brought new opportunities for biosensor development. Herein, we present the novel concept of a nanochannels photoelectrochemical (PEC) biosensor based on the integration of a unique CuxO-nanopyramid-islands (NPIs) photocathode, an anodic aluminum oxide (AAO) membrane, and alkaline phosphatase (ALP) catalytic chemistry. The CuxO-NPIs photocathode possesses good performance, and further assembly with AAO yields a designed architecture composed of vertically aligned, highly ordered nanoarrays on top of the CuxO-NPIs film. After biocatalytic precipitation (BCP) was stimulated within the channels, the biosensor was used for the successful detection of ALP activity. This study has not only provided a novel paradigm for an unconventional nanochannels PEC biosensor, which can be used for general bioanalytical purposes, but also indicated that the new concept of nanochannel -- semiconductor heterostructures is a step toward innovative biomedical applications. [ABSTRACT FROM AUTHOR]
- Published
- 2018
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13. Determining Electrochemical Surface Stress of Single Nanowires.
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Wang, Hui, Shan, Xiaonan, Yu, Hui, Wang, Yan, Schmickler, Wolfgang, Chen, Hong-Yuan, and Tao, Nongjian
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NANOWIRES , *ELECTROCHEMISTRY , *NANOSTRUCTURED materials , *ELECTROCATALYSIS , *OXIDATION , *CHEMICAL reduction - Abstract
Electrochemical surface stress is important in nanomaterials because of their large surface-to-volume ratios, which lead to unique mechanical and electrocatalytic properties, but directly measuring this quantity has been challenging. Here we report on experimental determination of the surface stress, and associated electrochemical processes of a single gold nanowire with an optical imaging technique. We show that surface stress changes linearly and reversibly with the potential between 0 and 0.8 V versus Ag/AgCl, but abruptly with large hysteresis, associated with the oxidation and reduction of the nanowire, between 0.8 and 1.5 V. The potential derivative of the surface stress closely resembles the cyclic voltammograms. We described the observations in terms of anion adsorption and surface oxidation/reduction. This work demonstrates a new approach to study electrochemical processes and the associated surface stress changes of nanomaterials. [ABSTRACT FROM AUTHOR]
- Published
- 2017
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14. Determining Electrochemical Surface Stress of Single Nanowires.
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Wang, Hui, Shan, Xiaonan, Yu, Hui, Wang, Yan, Schmickler, Wolfgang, Chen, Hong ‐ Yuan, and Tao, Nongjian
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NANOSTRUCTURED materials , *NANOWIRES , *ELECTROCHEMISTRY , *ELECTROCATALYSTS , *OXIDATION-reduction reaction , *ADSORPTION (Chemistry) - Abstract
Electrochemical surface stress is important in nanomaterials because of their large surface-to-volume ratios, which lead to unique mechanical and electrocatalytic properties, but directly measuring this quantity has been challenging. Here we report on experimental determination of the surface stress, and associated electrochemical processes of a single gold nanowire with an optical imaging technique. We show that surface stress changes linearly and reversibly with the potential between 0 and 0.8 V versus Ag/AgCl, but abruptly with large hysteresis, associated with the oxidation and reduction of the nanowire, between 0.8 and 1.5 V. The potential derivative of the surface stress closely resembles the cyclic voltammograms. We described the observations in terms of anion adsorption and surface oxidation/reduction. This work demonstrates a new approach to study electrochemical processes and the associated surface stress changes of nanomaterials. [ABSTRACT FROM AUTHOR]
- Published
- 2017
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15. Plasmonic Imaging of the Interfacial Potential Distribution on Bipolar Electrodes.
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Hasheminejad, Meisam, Fang, Yimin, Li, Meng, Jiang, Yingyan, Wang, Wei, and Chen, Hong-Yuan
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ELECTROCHEMILUMINESCENCE , *ELECTRODE potential , *ELECTRIC impedance , *FLUORESCENCE , *ELECTROCHEMISTRY ,POTENTIAL distribution - Abstract
Bipolar electrochemistry is based on the gradient distribution of free-electron density along an electrically isolated electrode, which causes a positive electrode potential at one end and a negative potential at the other, allowing for wide applications in analytical chemistry and materials science. To take full advantage of its wireless and high-throughput features, various types of optical probes, such as pH indicators and fluorescence and electrochemiluminescence reagents, have often been used to indirectly monitor the interfacial electron transfer through chromogenic or fluorogenic reactions. Herein, we report the first probe-free imaging approach that can directly visualize the distribution of the interfacial potential in bipolar electrodes, providing essential information for the validation and development of the theory and applications of bipolar electrochemistry. This approach is based on the sensitive dependence of surface plasmon resonance imaging on the local electron density in the electrode, which enables the direct mapping of potential with a spatial resolution close to the optical diffraction limit, a temporal resolution of 50 ms, and a sensitivity of 10 mV. In addition, in contrast to previous optical readouts that relied on faradaic reactions, the present work achieved the impedance-based measurements under non-faradaic conditions. It is anticipated that this technique will greatly expand the application of bipolar electrochemistry as a platform for chemical and biosensing. [ABSTRACT FROM AUTHOR]
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- 2017
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16. Plasmonic Imaging of the Interfacial Potential Distribution on Bipolar Electrodes.
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Hasheminejad, Meisam, Fang, Yimin, Li, Meng, Jiang, Yingyan, Wang, Wei, and Chen, Hong ‐ Yuan
- Subjects
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ELECTROCHEMISTRY , *FREE electron lasers , *ELECTRODES , *ELECTRODE potential , *FLUORESCENCE - Abstract
Bipolar electrochemistry is based on the gradient distribution of free-electron density along an electrically isolated electrode, which causes a positive electrode potential at one end and a negative potential at the other, allowing for wide applications in analytical chemistry and materials science. To take full advantage of its wireless and high-throughput features, various types of optical probes, such as pH indicators and fluorescence and electrochemiluminescence reagents, have often been used to indirectly monitor the interfacial electron transfer through chromogenic or fluorogenic reactions. Herein, we report the first probe-free imaging approach that can directly visualize the distribution of the interfacial potential in bipolar electrodes, providing essential information for the validation and development of the theory and applications of bipolar electrochemistry. This approach is based on the sensitive dependence of surface plasmon resonance imaging on the local electron density in the electrode, which enables the direct mapping of potential with a spatial resolution close to the optical diffraction limit, a temporal resolution of 50 ms, and a sensitivity of 10 mV. In addition, in contrast to previous optical readouts that relied on faradaic reactions, the present work achieved the impedance-based measurements under non-faradaic conditions. It is anticipated that this technique will greatly expand the application of bipolar electrochemistry as a platform for chemical and biosensing. [ABSTRACT FROM AUTHOR]
- Published
- 2017
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17. Electrochemical behaviors in closed bipolar system with three-electrode driving mode.
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Zhang, Jia-Dong, Zhao, Wei-Wei, Xu, Jing-Juan, and Chen, Hong-Yuan
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ELECTROCHEMISTRY , *BIPOLAR cells , *ELECTRODES , *COUPLING agents (Chemistry) , *CHEMICAL reactions - Abstract
Here we report the studies on the electrochemical behaviors at a closed bipolar cell which is composed of two separated reaction cells containing a closed bipolar electrode (c-BPE) and its driving electrodes. The influence factors such as the concentration of the reagents, the size and material of the electrodes are studied experimentally and theoretically. And the experimental results fit with the theoretic calculation very well. Significantly, unlike the previous studies focusing on the coupling of the two c-BPE poles, this work also considers the effect of the reaction on the driving electrode on the electrochemical behavior. We believe that this research could deepen our understanding of bipolar chemistry and be useful for the future c-BPE-based applications. [ABSTRACT FROM AUTHOR]
- Published
- 2016
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18. Single particle plasmonic and electrochemical dual mode detection of amantadine.
- Author
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Wang, Hui, Wang, Shu-Min, Zhao, Wei, Chen, Hong-Yuan, and Xu, Jing-Juan
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METHYLENE blue , *FLUORESCENCE resonance energy transfer , *CD antigens , *PLASMONICS , *AMANTADINE , *SIGNAL detection - Abstract
Herein, a facile and sensitive dual mode sensing strategy for amantadine (AMD) level evaluation by coupling the plasmonic Au nanorod (NR) and supramolecular SH-cyclodextrin (CD) through strong Au-S bond is proposed. Methylene blue (MB) molecules can be inserted into the cavity of CD molecules through the hydrophobic interaction, which would cause the plasmon resonance energy transfer (PRET) process as well as electrochemical signal response due to the spectrum overlap between Au NR and MB molecules and the electrochemical conversion activity of MB molecules. Subsequently, AMD would induce the replacement of MB molecules because of the stronger interaction with CD, resulting the recovery of scattering intensity of Au NR and decrease of the electrooxidation current of MB. On one hand, the increase of Au NR scattering intensity is linearly proportional to AMD with the concentration from 0.4 to 3.0 μM, and reaches a limit of detection (LOD) of 0.28 μM. On the other hand, electrochemical measurement method enlarged the detection range of AMD. The variation of electrochemical oxidation peak current of MB is linearly proportional to the logarithm value of AMD concentration from 2.5 to 375.0 μM, with LOD of 1.9 μM. Subsequently, the proposed dual mode response sensing strategy was successfully employed for the detection of AMD in human serum samples with great selectivity and sensitivity, with a recovery percentage ranged from 92.6 to 112.0%. Overall, this Au NR@SH-CD-MB nanoparticle based single particle plasmonic and electrochemical dual mode sensing method provides great potential in the field of clinical drug detection or metabolic process investigation in the future. Au NR@SH-CD-MB NPs for dual mode AMD detection. [Display omitted] • The CD molecules were introduced for simpler and more effective construction of PRET based plasmonic sensors. • Au NR@SH-CD-MB NPs could produce scattering and electrochemical dual signals for AMD detection. • The prepared Au NR@SH-CD-MB NPs have a good sensitivity and selectivity toward AMD. • The dual signal responsive detection method could achieve a lower LOD and broader dynamic range in biosensing. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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19. Electrochemiluminescence aptasensor based on bipolar electrode for detection of adenosine in cancer cells.
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Shi, Hai-Wei, Wu, Mei-Sheng, Du, Ying, Xu, Jing-Juan, and Chen, Hong-Yuan
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ELECTROCHEMILUMINESCENCE , *ADENOSINES , *CANCER cell analysis , *ELECTROCHEMISTRY , *FERROCENE , *ANTISENSE DNA , *OXIDATION - Abstract
Abstract: Here we report a novel approach for the detection of adenosine in cancer cells by electrochemiluminescence (ECL) on a wireless indium tin oxide bipolar electrode (BPE). In this approach, ferrocene (Fc) which is labeled on adenosine aptamer is enriched on one pole of the BPE by hybridization with its complementary DNA (ssDNA) and oxidized to Fc+ under an external voltage of 5.0V at the two ends of BPE. Then, a reversed external voltage was added on the BPE, making Fc+ enriched pole as cathode. The presence of Fc+ promotes the oxidation reaction on the anodic pole of the BPE, resulting in a significant increase of ECL intensity using Ru(bpy)3 2+/tripropylamine (TPA) system as test solution. The presence of target adenosine was reflected by the ECL signal decrease on the anodic pole caused by the target-induced removal of ferrocene-aptamer on the cathodic pole. The decrease of ECL signal was logarithmically linear with the concentration of ATP in a wide range from 1.0fM to 0.10μM. This ECL biosensing system could accurately detect the level of adenosine released from cancer cells. [Copyright &y& Elsevier]
- Published
- 2014
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20. In situ spectroeletrochemistry and cytotoxic activities of natural ubiquinone analogues
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Ma, Wei, Zhou, Hao, Ying, Yi-Lun, Li, Da-Wei, Chen, Guo-Rong, Long, Yi-Tao, and Chen, Hong-Yuan
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ELECTROCHEMISTRY , *UBIQUINONES , *ANTINEOPLASTIC agents , *DRUG synergism , *ORGANIC synthesis , *OXIDATION-reduction reaction , *STRUCTURE-activity relationship in pharmacology , *CANCER cell proliferation , *ELECTRON paramagnetic resonance spectroscopy - Abstract
Abstract: Quinones are a group of potent antineoplastic agents. Here we described effective and facile routes to synthesize a series of ubiquinone analogues (UQAs). These unique compounds have been investigated by electrochemistry and in situ UV–vis spectroelectrochemistry to explore their electron-transfer processes and radical properties in aprotic media. The structure–activities relationships of inhibiting cancer cell proliferation of UQAs were examined in murine melanoma B16F10 cells using a 72 h continuous exposure MTT (3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide) assay. Our results revealed that UQAs had improved antiproliferative activity and displayed better inhibitory effects than natural ubiquinone 10. The cytotoxic activities of UQAs were correlated to the semiubiquinone radicals, which were confirmed by in situ electron spin resonance (ESR). In the cytotoxicity test, 6-vinylubiquinone 5 and 6-(4′-fluorophenyl) ubiquinone 7 that possess half maximal inhibitory concentration value (IC50) of 6.1 μM and 6.2 μM. This would make them as valuable candidates for future pharmacological studies. [Copyright &y& Elsevier]
- Published
- 2011
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21. Photoinducedly electrochemical preparation of Prussian blue film and electrochemical modification of the film with cetyltrimethylammonium cation
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Liu, Shou-Qing, Li, Hua, Sun, Wei-Hui, Wang, Xiao-Mei, Chen, Zhi-Gang, Xu, Jing-Juan, Ju, Huang-Xian, and Chen, Hong-Yuan
- Subjects
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ELECTROCHEMISTRY , *PRUSSIAN blue , *THIN films , *TRIMETHYL ammonium compounds , *SODIUM nitroferricyanide , *CATIONS , *CHEMICAL reactions , *FOURIER transform infrared spectroscopy - Abstract
Abstract: This work presents a photoinducedly electrochemical preparation of Prussian blue from a single sodium nitroprusside and insertion of cetyltrimethylammonium cations into Prussian blue as counter ions. The product of photoinducedly electrochemical reactions has a couple of voltammetric peaks at E°=0.266V in 0.2moll−1 KCl solution, the measurements of X-ray powder diffraction and FT-IR spectroscopy show that it is Prussian blue (PB). The formation mechanism of a pre-photochemical reaction and subsequent electrochemical reaction is suggested. The cyclic voltammetric treatment of the freshly as-prepared PB film in 1.0mmoll−1 cetyltrimethylammonium (CTA) bromide solution leads to the insertion of cetyltrimethylammonium cations into the channels of Prussian blue, which substitutes for potassium ions as counter ions in Prussian blue. The Prussian blue containing CTA counter ions shows two couples of voltammetric peaks at E°=−0.106V and E°=0.249V in 0.2moll−1 KCl solution containing 1.0mmoll−1 cetyltrimethylammonium bromide. Compared with the electrochemical behaviors of KFeFe(CN)6 in 0.1moll−1 KOH alkali solution, CTAFeFe(CN)6 shows relatively durable voltammetric currents due to the hydrophobic effects of cetyltrimethylammonium. The diffusion coefficients for CTA and potassium cations were estimated to be D CTA 1.25×10−12 cm2 s−1, D K 2.59×10−12 cm2 s−1, respectively. The peak current of electro-catalytic oxidization on hydrogen peroxide showed a linear dependence from 6.59×10−6 to 2.20×10−4 moll−1 with R =0.99947 (n =8). The linear regression equation was I p (mA)=0.82949+0.00594C (μmoll−1) with errors of ±7.92833×10−5 for the slope and ±0.01085 for the intercept with the detection limit of 1.46×10−6 moll−1. Thus, it is expected to find its application in neutral or weak alkali medium for biosensors. [Copyright &y& Elsevier]
- Published
- 2011
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22. Electrochemistry and electrochemiluminescence for the host–guest system laponite–tris(2,2′-bipyridyl)ruthenium(II)
- Author
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Shan, Dan, Ding, Shou-Nian, Xu, Jing-Juan, Zhu, Wei, Zhang, Tao, Chen, Hong-Yuan, and Cosnier, Serge
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METAL complexes , *ORGANORUTHENIUM compounds , *SILICATES , *ELECTROCHEMISTRY , *CHEMILUMINESCENCE , *CARBON electrodes , *VOLTAMMETRY , *PROPYLAMINE - Abstract
Abstract: The cationic luminescence probe, tris(2,2′-bipyridyl)ruthenium(II) complex ([Ru(bpy)3]2+), was incorporated into laponite-modified glassy carbon electrode (GCE) via two strategies, namely, the adsorption and intercalation methods. These two incorporation methods resulted in different microenvironment for the immobilized [Ru(bpy)3]2+ within laponite as well as the different host–guest and guest–guest interactions. Herein, cyclic voltammetry and electrochemiluminescence (ECL) were innovatively performed to monitor the interactions. Tripropylamine (TPA) was used as coreactant in the electrochemical and ECL system. [Copyright &y& Elsevier]
- Published
- 2010
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23. Direct electrochemistry and electrocatalysis of hemoglobin on undoped nanocrystalline diamond modified glassy carbon electrode
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Zhu, Jing-Tuo, Shi, Chuan-Guo, Xu, Jing-Juan, and Chen, Hong-Yuan
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HEMOGLOBIN polymorphisms , *ELECTROCHEMISTRY , *CARBON electrodes , *BIOELECTROCHEMISTRY - Abstract
Abstract: Direct electrochemistry of hemoglobin (Hb) was observed at glassy carbon electrode (GCE) modified with undoped nanocrystalline diamond (UND) and Hb multilayer films via layer-by-layer assembly. UV–VIS absorbance spectroscopy, electrochemical impedance spectroscopy and cyclic voltammograms were employed to characterize the film. The results showed that the UND had the effect of enhancing the electron transfer between Hb and the electrode surface. Hb in the multilayer films maintained its bioactivity and structure. It also exhibited a good catalytic activity towards the reduction of H2O2. The reciprocal of catalytic current showed a linear dependence on the reciprocal of H2O2 concentration ranging from 0.5 μM to 0.25 mM with a detection limit of 0.4 μM. The apparent Michaelis–Menten constant was estimated to be 0.019 mM. [Copyright &y& Elsevier]
- Published
- 2007
- Full Text
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24. Spectroelectrochemistry of hollow spherical CdSe quantum dot assemblies in water
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Liu, Bo, Ren, Ting, Zhang, Jian-Rong, Chen, Hong-Yuan, Zhu, Jun-Jie, and Burda, Clemens
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QUANTUM dots , *SPECTRUM analysis , *ELECTROCHEMISTRY , *CADMIUM compounds - Abstract
Abstract: The hollow spherical CdSe QD assemblies were synthesized via a sonochemical approach that utilizes β-cyclodextrin as a template reagent in aqueous solution. The hollow nanospheres have an average diameter of 70nm and are found to consist of an assembly of monodispersed 5nm sized CdSe quantum dots. Following an electrochemical reaction with persulfate ions, strong electrogenerated chemiluminescence (ECL) was observed from the CdSe nanoassemblies suspended in an aqueous solution of pH⩽7.95. The study indicates that the morphology of the 70nm nanoassembly plays an important role in generating the stable ECL since individually dispersed quantum dots did not exhibit any significant ECL. The unique ECL intensity and stability of the synthesized spherical nanoassemblies could allow for potential sensor applications of CdSe quantum dots in water. [Copyright &y& Elsevier]
- Published
- 2007
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25. A Novel Nitric Oxide Cellular Biosensor Based on Red Blood Cells Immobilized on Gold Nanoparticles.
- Author
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Gu, Hai‐Ying, Lu, Shuang‐Yun, Jiang, Qi‐Yu, Yu, Chun‐Mei, Li, Genxi, and Chen, Hong‐Yuan
- Subjects
- *
NITRIC oxide , *BIOSENSORS , *ERYTHROCYTES , *CARBON electrodes , *ETHYLENEDIAMINE , *ATOMIC force microscopy , *SCANNING electron microscopy , *ELECTROCHEMISTRY - Abstract
We have developed a novel nitric oxide (NO) cellular biosensor based upon the immobilization of red blood cells (RBCs) onto nanometer‐size colloidal gold that is attached to an electrochemically pretreated glassy carbon electrode via the bridging of an ethylenediamine monolayer. The biosensor has been characterized by atomic force microscopy (AFM), scanning electron microscopy (SEM), and electrochemistry. The immobilized RBCs display an excellent electrocatalytic response to nitric oxide. The electrocatalytic currents are proportional to the NO concentration in the range from 1.0×10–8 to 1.0×10–6 M and the detection limit is as low as 5.0×10–9 M (S/N=3). Furthermore, the biosensor is very stable and relatively free of potential interference. [ABSTRACT FROM AUTHOR]
- Published
- 2006
- Full Text
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26. An Electrochemical Immunosensor for Assays of C-Reactive Protein.
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Zhu, Jun-Jie, Xu, Jin-Zhong, He, Jin-Tao, Wang, Yi-Jun, Miao, Qiang, and Chen, Hong-Yuan
- Subjects
- *
DETECTORS , *ELECTROCHEMISTRY , *C-reactive protein - Abstract
An electrochemical immunosensor has been constructed by the self-assemble technique and studied by the AC impedance and potential method respectively. The change of the surface impedance shows that the antibody can be assembled on the electrode surface and recognize the antigen. The gold nanoparticles are not only used to immobilize the CRP antibody, but also can amplify the potential response. The immunosensor responds to antigen in the linear range from 5 to 25 µg/mL and can meet the needs of clinical assay. [ABSTRACT FROM AUTHOR]
- Published
- 2003
- Full Text
- View/download PDF
27. Frontispiece: An Integrated Electrochemical Nanodevice for Intracellular RNA Collection and Detection in Single Living Cell.
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Wang, Hai‐Yan, Ruan, Yi‐Fan, Zhu, Li‐Bang, Shi, Xiao‐Mei, Zhao, Wei‐Wei, Chen, Hong‐Yuan, and Xu, Jing‐Juan
- Subjects
- *
RNA , *CELL analysis - Abstract
Electrochemistry, Hybridization Chain Reaction, Nanopipette, RNA, Single Cell Analysis Keywords: Electrochemistry; Hybridization Chain Reaction; Nanopipette; RNA; Single Cell Analysis EN Electrochemistry Hybridization Chain Reaction Nanopipette RNA Single Cell Analysis 1 1 1 06/05/21 20210607 NES 210607 B Single-Cell Analysis b A duplex-specific nuclease-assisted nanopipette was fabricated in the Research Article on page 13244 by Wei-Wei Zhao, Jing-Juan Xu et al. for tracking the drug-induced variation of miR-10b levels at single-cell level. [Extracted from the article]
- Published
- 2021
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28. Frontispiz: An Integrated Electrochemical Nanodevice for Intracellular RNA Collection and Detection in Single Living Cell.
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Wang, Hai‐Yan, Ruan, Yi‐Fan, Zhu, Li‐Bang, Shi, Xiao‐Mei, Zhao, Wei‐Wei, Chen, Hong‐Yuan, and Xu, Jing‐Juan
- Subjects
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RNA , *CELL analysis - Abstract
Electrochemistry, Hybridization Chain Reaction, Nanopipette, RNA, Single Cell Analysis Keywords: Electrochemistry; Hybridization Chain Reaction; Nanopipette; RNA; Single Cell Analysis EN Electrochemistry Hybridization Chain Reaction Nanopipette RNA Single Cell Analysis 1 1 1 06/05/21 20210607 NES 210607 B Einzelzellanalyse b Eine auf einer duplexspezifischen Nuklease basierende Nanopipette wurde im Forschungsartikel auf S. 13352 von Wei-Wei Zhao, Jing-Juan Xu et al. hergestellt und zur Analyse der wirkstoffinduzierten Schwankung des miR-10b-Spiegels auf Einzelzellniveau verwendet. [Extracted from the article]
- Published
- 2021
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29. An improved G-quadruplex DNAzyme for dual-functional electrochemical biosensing of adenosines and hydrogen peroxide from cancer cells.
- Author
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Wang, Zong-Hua, Lu, Cai-Yu, Liu, Jing, Xu, Jing-Juan, and Chen, Hong-Yuan
- Subjects
- *
DEOXYRIBOZYMES , *BIOSENSORS , *ELECTROCHEMISTRY , *ADENOSINES , *HYDROGEN peroxide , *CANCER cells - Abstract
A dual-functional electrochemical biosensor for adenosines and hydrogen peroxide from cancer cells was developed based on a traditional switchable electrochemical sensing format and ATP improved G-quadruplex DNAzyme as a biolabel. [ABSTRACT FROM AUTHOR]
- Published
- 2014
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- View/download PDF
30. An effective DNA-based electrochemical switch for reagentless detection of living cellsElectronic supplementary information (ESI) available. See DOI: 10.1039/c1cc10430f.
- Author
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Liu, Jing, Zhou, Hong, Xu, Jing-Juan, and Chen, Hong-Yuan
- Subjects
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ELECTROCHEMISTRY , *DNA , *CELL physiology , *ELECTRODES , *GENE transfection , *FERROCENE , *CHARGE exchange - Abstract
A novel switch-cytosensing strategy has been designed, which is based on the changes of electron transfer efficiency between ferrocene at the end of DNA and the electrode surface before and after cell transfection. This strategy provided a general and convenient method to fabricate efficient electrochemical cell sensors. [ABSTRACT FROM AUTHOR]
- Published
- 2011
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31. Electrochemical modulation of electrogenerated chemiluminescence of CdS nano-composite
- Author
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Lu, Cong, Wang, Xiao-Fei, Xu, Jing-Juan, and Chen, Hong-Yuan
- Subjects
- *
ELECTROCHEMISTRY , *PHYSICAL & theoretical chemistry , *CHEMILUMINESCENCE , *NANOPARTICLES - Abstract
Abstract: An in-situ induction precipitation approach via electrochemical reduction has been successfully used to prepare CdS-Polyamidoamine (CdS–PAMAM) nano-composite membranes on electrode surfaces, and that the resulting film showed 55-fold enhanced red electrogenerated chemiluminescence compared with that of CdS nano-film without PAMAM and the stability of the ECL can be modulated by electrochemical methods for the first time. It would open a way in preparation of stable and strong ECL nano-composite films for analytical application. [Copyright &y& Elsevier]
- Published
- 2008
- Full Text
- View/download PDF
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