CN1789997A - Ultra-micro ring electrode and preparation method thereof - Google Patents

Abstract

The invention discloses a super-microring electrode and preparing method, which comprises the following steps: first, taking the naked optical fiber as the filamentary insulation substrate of super-microring electrode; adapting RF magnetic sputtering technology to deposit a layer of metal film as electrode film on the optical fiber surface; second, adapting plasma reinforced chemical gas-phase deposition technology to deposit silica film as electrode insulation film on the metal film; then, corroding the silica film on one end of optical fiber through fluohydric acid to make the optical fiber covered by metal film only; adapting aluminum powder conductive glue to connect the optical fiber and copper lead; finally, assembling the copper lead of super-microring electrode in the plastic liner; adapting optical fiber knife pen to cut the super-microring electrode surface on the other end of optical fiber covered by metal film and silicon nitride film.

Description

A kind of ultramicroring electrode and preparation method thereof

Technical field

The present invention relates to a kind of Electrochemical Detection element, particularly a kind of ultramicroring electrode and preparation method thereof.

Background technology

At present, in the ultramicroring electrode preparation process, to adopt technologies such as vacuum evaporating, metallizing organic compound, gas pyrolysis and electroless plating on thread dielectric base, be covered needed electrode film and insulation film usually.Existing method is: the filament substrate of covering electrodes material is inserted in the thin glass tube, with epoxy resin in a circumferential direction with electrode material insulation, process then ring electrode electrode surface [referring to L.S.Kuhn etc., Anal.Chem.1990,62,1631-1636]; Perhaps, adopt electrophoretic paint as the insulating material of ultramicroring electrode [referring to Y.Lee etc., Anal.Chem.2002,74,3626-3633].The shortcoming that these methods exist is: owing to adopt epoxy resin to realize in thin glass tube the insulation on the electrode material circumferencial direction, so be difficult to prepare the less ultramicroring electrode of overall dimensions, epoxy resin exists the problem that insulation characterisitic is degenerated under some environment for use and condition simultaneously; And be not suitable for using in calibration or under than negative current potential as insulating material with electrophoretic paint.

Summary of the invention

The objective of the invention is, improve the existing in prior technology defective, a kind of ultramicroring electrode based on microelectronic processing technique and preparation method thereof is provided, prepared ultramicroring electrode has that overall dimensions is little, precision is high, the characteristics of good insulating.

In order to achieve the above object, the present invention takes following technical scheme to be achieved:

A kind of ultramicroring electrode, comprise an insulation link stopper, the sleeve that is connected as a single entity through the filament substrate at this insulating spacer center, with insulating spacer, be arranged on the lead in the sleeve, the circumference of described filament substrate is provided with the electrode rete, the electrode rete peripheral hardware of its front end has insulating film layer, and the rear end of described lead front end cavity and filament substrate matches; The front end of described filament substrate and insulation link stopper are by the resin sealing-in.

In the such scheme, described filament substrate is the quartzy bare fibre of single mode, and this section optic fibre extension to the rear end in the sleeve only is provided with the electrode rete, and itself and lead front end cavity engagement are provided with conducting resinl.Described electrode rete is a precious metal film layer; Described insulating film layer is the nonmetallic ceramics rete.

A kind of preparation method of ultramicroring electrode, it comprises the steps:

(1) filament substrate is used deionized water in order, absolute ethyl alcohol, deionized water carries out ultrasonic cleaning;

(2) circumferential surface in filament substrate deposits the top electrode rete;

(3) outside the electrode rete, deposit the upper nonconductive Film layer again;

(4) insulating film layer of rear end that will deposit the filament substrate of electrode rete, insulating film layer with organic acid erodes, and only exposes the electrode rete, with conducting resinl its cavity with the lead front end is connected;

(5) lead is assembled in the sleeve, makes the filament substrate front end that has insulating film layer pass the center pit of insulating spacer, with resin-sealed;

(6) go out the ultramicroring electrode surface with the optical fiber writing of indictments, appeals, etc. in the front cutting of the filament substrate that deposits insulating film layer.

Among the above-mentioned preparation method, the deposition process of described step (2) is to adopt rf magnetron sputtering technology; The deposition process of described step (3) is that using plasma strengthens chemical vapor deposition method; Described filament substrate is to adopt the quartzy bare fibre of single mode as material; Described electrode rete is to adopt precious metal material to deposit; Described insulating film layer is that the structure with non-metal stupalith forms.

The invention has the beneficial effects as follows, adopt microelectronics thin film preparation process priority deposition of electrode material film and insulating material film on thread dielectric base, thereby realize the Miniaturized of ultramicroring electrode.Its rf magnetron sputtering technology can be carried out the preparation of multiple electrode material membrane, as gold thin film, platinum film and silver-colored film.Plasma enhanced chemical vapor deposition technology can be carried out the preparation of multiple insulating material film, as silica membrane, silicon nitride film, carborundum films, therefore, can prepare different insulating material films at different environments for use and service condition.Carry out the preparation of ultramicroring electrode because the inventive method is based on the thin film preparation process of microelectronics industry, therefore can realize the mass production of ultramicroring electrode; Simultaneously, can realize the electrode size of ultramicroring electrode and the accurate control of shape, thus help improving the measurement result of ultramicroring electrode consistance, help experimental result and Theoretical Calculation result's comparison.

Description of drawings

Fig. 1 is the cross section structure figure of ultramicroring electrode of the present invention;

Fig. 2 is the cross-sectional structure figure of electrode front end 11 among Fig. 1.

Embodiment

The present invention is described in further detail below in conjunction with drawings and Examples:

As depicted in figs. 1 and 2, a kind of ultramicroring electrode, the plastic sleeve 13 that comprises a plastics link stopper 16, is connected as a single entity with this plastics block 16, be arranged on copper conductor 14 in the plastic sleeve 13, through the filament substrate 21 at plastics block 16 centers.The circumference covering electrodes rete 22 of described filament substrate 21, the electrode rete 22 outer insulating film layers 23 that are covered again of its front end 11; The rear end 12 of described copper conductor 14 front end cavitys and filament substrate 21 matches; The front end 11 of described filament substrate 21 and plastics link stopper 16 are by silicones 15 sealing-ins.

In above technical scheme, the filament substrate 21 of present embodiment is the quartzy bare fibre of single mode, and this section optic fibre extension to 12 of rear ends in the plastic sleeve 13 are coated with electrode rete 22, and the insulating film layer 23 that is not covered; Itself and copper conductor 14 front end cavity engagements are provided with sliver-powder conducting glue 17; Described electrode rete 22 can be precious metal film layer, and as gold thin film, platinum film or silver-colored film, present embodiment is a gold thin film; Described insulating film layer 23 can be oxide ceramic film or non-oxide ceramics films such as silicon nitride, silit such as silicon dioxide, aluminium oxide, and present embodiment is a silicon oxide film.

A kind of preparation method of the ultramicroring electrode of the foregoing description, undertaken by following step:

(1) the quartzy bare fibre 21 of single mode is carried out ultrasonic cleaning with deionized water, absolute ethyl alcohol, deionized water in order, the ultrasonic cleaning time respectively is 2 minutes, and ultrasonic power is 350W.

(2) adopt rf magnetron sputtering technology on the thread surface deposition of the quartzy bare fibre 21 of single mode gold thin film 22 as electrode material membrane; Deposition process is carried out on JS-3X-80 type rf magnetron sputtering board, and sputtering target material is a gold target; Main technologic parameters is: working gas is an argon gas, and operating air pressure is 1.0 handkerchiefs, and underlayer temperature is a room temperature, and radio-frequency power is 120W.

(3) using plasma strengthen chemical vapor deposition method on gold thin film 22 again cvd silicon oxide film 23 as the insulating material film of electrode; Deposition process is carried out on PECVD-2B type plasma chemistry gas-phase injection board, and reacting gas is silane and oxygen, and its volume ratio is 1: 2; Main technologic parameters is: underlayer temperature is 300 ℃ ± 10 ℃, and the standard radio frequency frequency is 13.56MHz, radio-frequency power 60 ± 20W.

(4) adopting weight concentration is that the silicon oxide film 23 that 40% hydrofluorite will deposit the optical fiber rear end 12 of gold thin film 22 and silicon oxide film 23 erodes, make the rear end of optical fiber expose gold thin film 22, it is linked to each other with the cavity of copper conductor 14 front ends with sliver-powder conducting glue 17.

(5) copper conductor 14 is assembled in the plastic sleeve 13, makes the front end 11 of optical fiber pass the center pit of plastics block 16 and use silicones 15 sealings, the available silicon resin bonding is integral between plastics block 16 and the plastic sleeve 13.

(6) adopt the optical fiber writing of indictments, appeals, etc. to cut out the ultramicroring electrode surface at the front end 11 of optical fiber.

Ultramicroring electrode has the incomparable many good electrochemical properties of conventional electrodes.Ultramicroring electrode has remarkable advantages such as mass transfer rate is fast, RC time constant IP little, system is low, can be used for high resistance system (no supporting electrolyte solution, gas phase system, solid system); Field such as transient state electrochemical reaction research fast.

Claims (7)

1. ultramicroring electrode, comprise an insulation link stopper (16), through the filament substrate (21) at this insulating spacer (16) center, the circumference of described filament substrate (21) is provided with electrode rete (22), the outer insulating film layer (23) that is provided with of the electrode rete (22) of its front end (11), it is characterized in that, this ultramicroring electrode also comprises the sleeve (13) that is connected as a single entity with insulating spacer (16), is arranged on the lead (14) in the sleeve (13), and the rear end (12) of described lead (14) front end cavity and filament substrate (21) matches; The front end (11) of described filament substrate (21) and insulation link stopper (16) are by resin (15) sealing-in.

2. ultramicroring electrode according to claim 1, it is characterized in that, described filament substrate (21) is the quartzy bare fibre of single mode, and this section optic fibre extension only is provided with electrode rete (22) to the rear end (12) in the sleeve (13), and itself and lead (14) front end cavity engagement are provided with conducting resinl (17).

3. ultramicroring electrode according to claim 1 and 2 is characterized in that, described electrode rete (22) is a precious metal film layer; Described insulating film layer (23) is the nonmetallic ceramics rete.

4. the preparation method of a ultramicroring electrode according to claim 1 is characterized in that, it comprises the steps:

(1) filament substrate (21) is used deionized water in order, absolute ethyl alcohol, deionized water carries out ultrasonic cleaning;

(2) circumferential surface in filament substrate (21) deposits top electrode rete (22);

(3) outside electrode rete (22), deposit upper nonconductive Film layer (23) again;

(4) insulating film layer of rear end (12) that will deposit the filament substrate (21) of electrode rete (22), insulating film layer (23) with mineral acid erodes, and only exposes electrode rete (22), with conducting resinl (17) its cavity with lead (14) front end is connected;

(5) lead (14) is assembled in the sleeve (13), makes filament substrate (21) front end (11) that deposits insulating film layer (23) pass the center pit of insulating spacer (16), seal with resin (15);

(6) cut out the ultramicroring electrode surface with the front end (11) of the optical fiber writing of indictments, appeals, etc. in the filament substrate that deposits insulating film layer (23) (21).

5. the preparation method of ultramicroring electrode according to claim 4 is characterized in that, the deposition process of described step (2) is to adopt rf magnetron sputtering technology.

6. the preparation method of ultramicroring electrode according to claim 4 is characterized in that, the deposition process of described step (3) is that using plasma strengthens chemical vapor deposition method.

7. according to the preparation method of the described ultramicroring electrode of claim 4～6, it is characterized in that described filament substrate (21) is to adopt the quartzy bare fibre of single mode as material; Described electrode rete (22) is to adopt precious metal material to deposit; Described insulating film layer (23) is to construct with non-metal stupalith to form.