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Electrochemistry original position time surface differentiated plasma resonance measuring instrument

A surface plasmon and time-resolved technology, which is applied in the direction of measuring devices, scientific instruments, and scattering characteristic measurement, can solve problems such as inability to guarantee complete consistency, low time-resolution ability, and powerlessness of simultaneous measurement

Inactive Publication Date: 2007-08-08
CHANGZHOU INST OF ENERGY STORAGE MATERIALS &DEVICES
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Problems solved by technology

However, the simple combination of the two also has obvious shortcomings: the time-resolved measurement of the plasmon resonance absorption on the surface of the ultra-thin film cannot be measured at the same time as the electrochemical on-site measurement; the conditions of the two groups of tests cannot be guaranteed to be completely consistent ( Such as changing the chip, solution, etc.); the simultaneous measurement of the electrochemical response system is powerless; the time resolution is not high; the integration of the instrument is poor; the experimental operation is cumbersome; the data communication rate is low

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  • Electrochemistry original position time surface differentiated plasma resonance measuring instrument
  • Electrochemistry original position time surface differentiated plasma resonance measuring instrument
  • Electrochemistry original position time surface differentiated plasma resonance measuring instrument

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Embodiment 1

[0053] As shown in Figure 1, the electrochemical in-situ time-resolved surface plasmon resonance measuring instrument is made of known technologies: the optical path unit of the lower computer, the motor unit of the lower computer and the upper computer unit, the current unit of the lower computer and the voltage of the lower computer provided by the present invention. Unit and lower computer control unit constitute. The upper computer unit is connected to the lower computer control unit; the lower computer control unit is also connected to the lower computer current unit, the lower computer voltage unit, the lower computer optical circuit unit, and the lower computer motor unit.

[0054] As shown in Figure 2, the upper computer unit is a general-purpose computer. The computer stores and runs the software programs of the present invention: 1. Electrochemical command operation program, 2. Electrochemical voltage waveform data operation program, 3. SPR motor action command operation...

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Abstract

The invention relates to the electrochemistry in-situ time resolution surface plasma resonance spectroscopy measurement device, and its components are the under machine optical module, the under machine electromechanical module, and the above machine module, the under machine current module, the under machine voltage module, the under machine control module. The electrochemistry in-situ time resolution surface plasma resonance spectroscopy measurement device of this invention integrates the advantages of the SPR sensor and the electrochemical measurement technology, expanding their respective application scope; it can measure the electrochemical field, and at the same time, it can timely distinguish and measure the plasma resonance absorption on the ultra-thin film surface, convenient and quick; it has unique advantages to the membrane system research of the electrochemical response; the design introduces the latest USB 2.0 control technology into the design of the apparatus, with a high collection rate; and furthermore, it introduces the photodiode with rapid response speed, improving the time resolution data acquisition ability of the instrument; the software has a high degree automation, and the friendly interface.

Description

Technical field [0001] The invention provides an electrochemical in-situ time-resolved surface plasmon resonance measuring instrument. Background technique [0002] The surface plasmon resonance method has the characteristics of real-time detection, no labeling, and low sample consumption. It can monitor the progress of the binding or dissociation reaction between molecules on the sensor surface in real time, and then obtain information about molecular structure changes and chemical bonding, and calculate the reaction Kinetic constants are used to determine the type, concentration and quality of the reactants. All these experiments do not require labeling and purification of the reactants, so it is particularly suitable for the study of interactions between biomolecules. As an analysis, detection and characterization method that integrates the advantages of simplicity, speed, accuracy, and high sensitivity, electrochemical methods have always occupied a relatively important posit...

Claims

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Application Information

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IPC IPC(8): G01N21/55G01N27/416G01N21/552
Inventor 牛利杨贵福李风华袁福宇冯云祥王伟
Owner CHANGZHOU INST OF ENERGY STORAGE MATERIALS &DEVICES
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