CN206146875U - Can carry out normal position pond of electrochemistry spectrum experiment - Google Patents

Abstract

The utility model discloses a can carry out normal position pond of electrochemistry spectrum experiment, including base and normal position pond main part, the inside cavity that be of normal position pond main part, main part upper portion open have with the cavity intercommunication to electrode slot, working electrode slot, reference electrode slot, feed liquor hole and go out the liquid hole, openly open flutedly in normal position pond main part, it has the light trap to open in the recess, the light trap both ends are the glutinous kapton sticky tape of going up all, just division is having an entrance pupil of an oblique stamp towards the recess lateral wall from normal position pond main part, is just personally submitting 45 with normal position pond main part. The utility model discloses a normal position pond is extremely acidproof, alkali, can carry out the normal position electrochemistry spectrum experiment of all kinds of catalyst in the acidic bath or in the alkaline electrolysis liquid, not only can be reacted the electrochemistry data in arbitrary stage and corresponding spectral data, can obtain electrochemistry data and spectral data under arbitrary voltage moreover.

Description

A kind of pond in situ that can carry out electrochemistry spectrum experiment

Technical field

This utility model belongs to electrochemical optical spectra in-situ characterization technical field, is related to a kind of catalyst electrification optical spectra in situ The device and test system of sign, specifically a kind of pond in situ that can carry out electrochemistry spectrum experiment.

Background technology

X-ray absorption spectrum based on synchrotron due to breaching the energy limit of Traditional x-ray absorption spectrum, with By means of can accurately frequency modulation the advantages of, become the exhausted of study mechanism in classical electrochemical issues together with electrochemical property test Good means.Under the conditions of the certain electrical potential in actual electrochemical reaction process is existed only in due to real avtive spot, based on same The X-ray technology of step accelerator combines the introducing of electrochemical in-situ technology, can really analyze the boundary in reaction real-time process Face phenomenon.

In general, X-ray absorption spectrum includes two parts：X-ray absorption near side (ns) composes (XANES) and extension x-ray Absorption Fine Structure spectrogram (EXAFS).Wherein XANES can provide the chemical state information of metallic element, including oxidation state information, Sometimes also have local geometry information, EXAFS can provide absorb atom to adjacent to atom distance adjacent to atom kind Class sum purpose quantitative information, both combinations can obtain the more comprehensive Local Structure information of nanoparticle.

Utility model content

In order to obtain the electrochemical in-situ data and spectroscopic data of catalyst, the interface preferably studied in catalytic process is existing As and reaction mechanism, this utility model provides a kind of pond in situ that can carry out electrochemistry spectrum experiment of highly versatile.

The pond in situ that electrochemistry spectrum experiment can be carried out of the present utility model, including base and the original being installed on base Position tank main body, is cavity inside described tank main body in situ, and tank main body top is provided with connect with cavity slotting to electrode in the original location Groove, working electrode slot, reference electrode slots, in the original location tank main body both sides have the inlet opening that connects with cavity and go out liquid Hole, described inlet opening and liquid outlet connect the two ends of circulation pump, and the another two ends of circulation pump form electricity in being immersed in electrolytic solution Solution liquid closed circuit；Tank main body front is provided with groove in the original location, is provided with a loophole, loophole in groove on tank main body in situ Two ends affix kapton adhesive tapes, are just provided with an entrance pupil for tiltedly stabbing towards recess sidewall from tank main body in situ, with original position Tank main body front is in 45 °.

In above-mentioned technical proposal, described tank main body in situ can be 3D printing politef cell body.

It is described to electrode slot for diameter 1.5cm circular socket, the circle of described reference electrode slots for diameter 1cm Shape slot, described working electrode slot are the rectangle slot of 1cm × 0.3cm.

Described adopt to the electrode good carbon-point of electric conductivity, reference electrode adopts calomel electrode, and working electrode is to scribble The carbon cloth and carbon paper of catalyst.

Described loophole is located at a diameter of 0.5cm, a diameter of 1.5cm of opposite side of tank main body face side in situ.Printing opacity Hole two ends are sealed again using the Kapton adhesive tapes with excellent light transmittance energy, keep whole original position tank main body sealing.

Described entrance pupil is at 45 ° with pond front in situ, and incident X-ray can pass through entrance pupil and positive Unthreaded hole is injected, and is projected by the loophole at the back side, and not only can collect incident illumination, transmission light data can also connect in pond front in the original location Receive its fluorescence data.And when its fluorescence data is not needed, X-ray then can be directly incident by positive loophole.

Original position electrification of the pond in situ of the present utility model suitable for catalyst acidic electrolysis bath or alkaline electrolyte Optical spectra is tested, and not only can be obtained reacting the electrochemical data and corresponding spectroscopic data of either phase, and can be obtained Electrochemical data and spectroscopic data under any voltage, highly versatile.

Description of the drawings

Fig. 1 is application schematic diagram of the pond in situ of the present utility model in the original location in electrochemistry spectrum experiment；

Fig. 2 is the structural representation in pond in situ；

Fig. 3 is the front view in pond in situ.

Fig. 4 is the top view in pond in situ.

In figure：1 is inlet opening, and 2 are tank main body front in situ, and 3 is that, to electrode slot, 4 is working electrode slot, and 5 are ginseng Than electrode slot, 6 is loophole, and 7 is entrance pupil, and 8 is liquid outlet.

Specific embodiment

In conjunction with the embodiments this utility model is described further below against accompanying drawing：Reference picture 1-4, it is of the present utility model Pond in situ, including base and the tank main body in situ being installed on base, are cavity inside described tank main body in situ, in the original location pond Body top be provided with connect with cavity to electrode slot 3, working electrode slot 4, reference electrode slots 5, tank main body in the original location Both sides have the inlet opening 1 and liquid outlet 8 connected with cavity, and tank main body positive 2 is provided with groove in the original location, pond in situ in groove A loophole 6 is provided with main body, 6 two ends of loophole affix kapton adhesive tapes, from tank main body in situ just towards recess sidewall An entrance pupil 7 for tiltedly stabbing is provided with, is in 45 ° with tank main body front in situ.When specifically used, as shown in figure 1, described feed liquor Hole and liquid outlet connect the two ends of circulation pump, and the another two ends of circulation pump form electrolyte closed circuit in being immersed in electrolytic solution；

It is 1 that the catalyst of certain mass is scattered in isopropanol and water volume ratio:In 1 mixed solution, while adding one Quantitative mass fraction be 0.05% Nafion solution as binding agent, ultrasonic several minutes are prepared into ink.

Carbon cloth and carbon paper are cut by the pool size in situ of design, and weighs quality respectively, by the above-mentioned ink for preparing It is coated onto on carbon cloth and carbon paper, cryogenic vacuum drying weighs quality, is repeated a number of times, until reaching targeted loads amount 5mg/ cm²。

Experimental provision and equipment are connected as shown in Figure 1.

Regulation light source incident ray so as to reach perfect condition.

To the logical object gas several minutes of the electrolyte solution for preparing, until other gases in guaranteeing whole solution are It is discharged totally, whole solution is in object gas atmosphere.

Pond in situ is placed on target object stage, circulation pump and circulation line is connected, connect three electrodes and Electrochemical workstation, the position in the good original position pond of calibration guarantee it is errorless after, turn on pump makes which circulate several minutes.

Experiment hatch door is closed, light source is opened and electrochemical workstation is tested, needed for electrochemical workstation is adjusted to The current potential wanted, carries out electrochemical in-situ spectrum test.The voltage or electric current of control working electrode, collects spectroscopic data and circulation Voltammetric data.

Specific embodiment of the utility model is exemplified as more than, it is clear that this utility model is not limited to above example, this The those of ordinary skill in field is directly derived from this utility model disclosure or the deformation associated all should belong to this reality With new protection domain.

Claims (5)

1. a kind of pond in situ that can carry out electrochemistry spectrum experiment, it is characterised in that including base and be installed on base Tank main body in situ, inside described tank main body in situ be cavity, in the original location tank main body top be provided with connect with cavity to electrode Slot, working electrode slot, reference electrode slots, in the original location tank main body both sides have the inlet opening that connects with cavity and go out Fluid apertures, described inlet opening and liquid outlet connect the two ends of circulation pump, and the another two ends of circulation pump are formed in being immersed in electrolytic solution Electrolyte closed circuit；Tank main body front is provided with groove in the original location, is provided with a loophole, printing opacity in groove on tank main body in situ Hole two ends affix kapton adhesive tapes, are just provided with an entrance pupil for tiltedly stabbing towards recess sidewall from tank main body in situ, with original Position tank main body front is in 45 °.

2. the pond in situ of electrochemistry spectrum experiment can be carried out as claimed in claim 1, it is characterised in that described pond in situ Main body is 3D printing politef cell body.

3. the pond in situ of electrochemistry spectrum experiment can be carried out as claimed in claim 1, it is characterised in that described to electrode Circular socket of the slot for diameter 1.5cm, described reference electrode slots are the circular socket of diameter 1cm, described work electricity Rectangle slot of the pole slot for 1cm × 0.3cm.

4. the pond in situ of electrochemistry spectrum experiment can be carried out as claimed in claim 3, it is characterised in that described to electrode Using carbon-point, reference electrode adopts calomel electrode, and working electrode is the carbon cloth and carbon paper for scribbling catalyst.

5. the pond in situ of electrochemistry spectrum experiment can be carried out as claimed in claim 1, it is characterised in that described loophole Positioned at a diameter of 0.5cm of tank main body face side in situ, a diameter of 1.5cm of opposite side.