Your search keyword '"Wenjing QI"' showing total 6 results

1. Increasing Electrochemiluminescence Intensity of a Wireless Electrode Array Chip by Thousands of Times Using a Diode for Sensitive Visual Detection by a Digital Camera

Author

Guobao Xu, Fengxia Wu, Wenjing Qi, Wenyue Gao, Yong Xia, and Liming Qi

Subjects

Photomultiplier, business.product_category, business.industry, Chemistry, Detector, Transmitter, Analytical chemistry, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, Chip, 01 natural sciences, 0104 chemical sciences, Analytical Chemistry, Hardware_INTEGRATEDCIRCUITS, Electrode array, Optoelectronics, 0210 nano-technology, business, Sensitivity (electronics), Diode, Digital camera

Abstract

Both a wireless electrochemiluminescence (ECL) electrode microarray chip and the dramatic increase in ECL by embedding a diode in an electromagnetic receiver coil have been first reported. The newly designed device consists of a chip and a transmitter. The chip has an electromagnetic receiver coil, a mini-diode, and a gold electrode array. The mini-diode can rectify alternating current into direct current and thus enhance ECL intensities by 18 thousand times, enabling a sensitive visual detection using common cameras or smart phones as low cost detectors. The detection limit of hydrogen peroxide using a digital camera is comparable to that using photomultiplier tube (PMT)-based detectors. Coupled with a PMT-based detector, the device can detect luminol with higher sensitivity with linear ranges from 10 nM to 1 mM. Because of the advantages including high sensitivity, high throughput, low cost, high portability, and simplicity, it is promising in point of care testing, drug screening, and high throughput analysis.

Published

2015

2. Wireless Electrochemiluminescence with Disposable Minidevice

Author

Saima Hanif, Wenyue Gao, Guobao Xu, Wenjing Qi, Suping Li, and Jianping Lai

Subjects

Interaction studies, Chemistry, business.industry, Screen printing, Transmitter, Electrochemiluminescence, Bipolar electrochemistry, Wireless, Nanotechnology, Field analysis, business, Analytical Chemistry

Abstract

Wireless electrochemiluminescence system based on the wireless energy transmission technique has been demonstrated for the first time. It has a disposable transmitter and a coiled energy receptor. The coiled energy receptor is smartly used as the electrode. The wireless electrochemiluminescence system has been used to detect hydrogen peroxide with good sensitivity, featuring advantages of easy manipulation, low cost, and small size. The handy and cheap wireless electrochemiluminescence device can use laptops as a power supply. It is promising for the development of portable or disposable electrochemiluminescence devices for various applications (e.g., such as point of care testing, field analysis, scientific research, and chemical education). These advantages enable one to integrate many wireless electrochemiluminescence minidevices with screen printing coiled electrode arrays in microwell plates and charge-coupled devices (CCD) cameras to develop electrochemiluminescence high-throughput screening systems with broad applications in clinical analysis, drug screening, and biomolecular interaction studies.

Published

2014

3. Electrochemiluminescence Resonance Energy Transfer Based on Ru(phen)32+-Doped Silica Nanoparticles and Its Application in 'Turn-on' Detection of Ozone

Author

Zhongyuan Liu, Wenjing Qi, Ling Zhang, Guobao Xu, Di Wu, Jianming Zhao, and Wei Zhang

Subjects

Detection limit, Ozone, Doping, Electrochemical Techniques, Silicon Dioxide, Photochemistry, Resonance (chemistry), Analytical Chemistry, chemistry.chemical_compound, Energy Transfer, chemistry, Indigo carmine, Linear range, Luminescent Measurements, Turn (geometry), Organometallic Compounds, Humans, Nanoparticles, Electrochemiluminescence, Phenanthrolines

Abstract

Both the electrochemiluminescence (ECL) method for sensitive detection of ozone and the ECL resonance energy transfer (ECRET) using ozone have been reported for the first time. It is based on the ECRET of Ru(phen)3(2+)-doped silica nanoparticles (RuSiNPs) to indigo carmine. In the absence of ozone, the ECL of RuSiNPs is quenched as a result of the ECRET of RuSiNPs to indigo carmine. In the presence of ozone, the ECL of the system is "turned on" because ozone can oxidize indigo carmine and interrupt the ECRET from RuSiNPs to indigo carmine. In this way, it provides a simple ECL sensing of ozone via the proposed RuSiNP-based ECRET strategy with a linear range from 0.05-3.0 μM and a limit of detection (LOD) of 30 nM. The detection takes less than 5 min. This method is also successfully applied in the analysis of ozone in human serum samples and atmospheric samples.

Published

2013

4. Increasing Electrochemiluminescence Intensity of a Wireless Electrode Array Chip by Thousands of Times Using a Diode for Sensitive Visual Detection by a Digital Camera.

Author

Liming Qi, Yong Xia, Wenjing Qi, Wenyue Gao, Fengxia Wu, and Guobao Xu

Published

2016

5. Wireless Electrochemiluminescence with Disposable Minidevice.

Author

Wenjing Qi, Jianping Lai, Wenyue Gao, Suping Li, Saima Hanif, and Guobao Xu

Subjects

*ELECTROCHEMILUMINESCENCE, *ENERGY transfer, *ELECTRICAL energy, *ELECTRODES, *WIRELESS communications

Abstract

Wireless electrochemiluminescence system based on the wireless energy transmission technique has been demonstrated for the first time. It has a disposable transmitter and a coiled energy receptor. The coiled energy receptor is smartly used as the electrode. The wireless electrochemiluminescence system has been used to detect hydrogen peroxide with good sensitivity, featuring advantages of easy manipulation, low cost, and small size. The handy and cheap wireless electrochemiluminescence device can use laptops as a power supply. It is promising for the development of portable or disposable electrochemiluminescence devices for various applications (e.g., such as point of care testing, field analysis, scientific research, and chemical education). These advantages enable one to integrate many wireless electrochemiluminescence minidevices with screen printing coiled electrode arrays in microwell plates and charge-coupled devices (CCD) cameras to develop electrochemiluminescence high-throughput screening systems with broad applications in clinical analysis, drug screening, and biomolecular interaction studies. [ABSTRACT FROM AUTHOR]

Published

2014

6. Electrochemiluminescence Resonance Energy Transfer Based on Ru(phen)32+-Doped Silica Nanoparticles and Its Application in "Turn- on" Detection of Ozone.

Author

Wenjing Qi, Di Wu, Jianming Zhao, Zhongyuan Liu, Wei Zhang, Ling Zhang, and Guobao Xu

Subjects

*ELECTROCHEMILUMINESCENCE, *ENERGY transfer, *SILICA, *NANOPARTICLES, *OZONE, *RUTHENIUM, *INDIGO, *SERUM

Abstract

Both the electrochemiluminescence (ECL) method for sensitive detection of ozone and the ECL resonance energy transfer (ECRET) using ozone have been reported for the first time. It is based on the ECRET of Ru(phen)32+-doped silica nanoparticles (RuSiNPs) to indigo carmine. In the absence of ozone, the ECL of RuSiNPs is quenched as a result of the ECRET of RuSiNPs to indigo carmine. In the presence of ozone, the ECL of the system is "turned on" because ozone can oxidize indigo carmine and interrupt the ECRET from RuSiNPs to indigo carmine. In this way, it provides a simple ECL sensing of ozone via the proposed RuSiNP-based ECRET strategy with a linear range from 0.05-3.0 μM and a limit of detection (LOD) of 30 nM. The detection takes less than 5 min. This method is also successfully applied in the analysis of ozone in human serum samples and atmospheric samples. [ABSTRACT FROM AUTHOR]

Published

2013