CN105446047A - Electronic equipment with bus arrival information inquiry function - Google Patents

Abstract

The invention discloses electronic equipment with a bus arrival information inquiry function. The electronic equipment comprises an electrochromism device, a power supply module, a control module and a sensing module. When passengers get close to the electronic equipment, the sensing module works, the control module adjusts the power supply module to work to further adjust currents of the electrochromism device, and accordingly continuous and visible adjustment of the bus arrival information can be achieved, the passengers can check the bus arrival information conveniently at any time, and the electronic equipment is simple and convenient to use and good for industrial production.

Description

A kind of possess public transport and to arrive at a station the electronic equipment of information searching function

Technical field

The present invention relates to field of traffic, be specifically related to a kind ofly to possess public transport and to arrive at a station the electronic equipment of information searching function.

Background technology

Bus is a kind of main traffic instrument of masses' trip, article one, public bus network has many buses and be in the different position of distance platform, public transport arrives at a station information inquiry equipment by sensor senses position of bus, and display bus arrival information, facilitates passenger.

But the existing public transport information inquiry electronic equipment that arrives at a station is generally long-time display state, when not having passenger, can cause the waste of the energy.

Summary of the invention

The object of the invention is to avoid above-mentioned weak point of the prior art and provide a kind of to possess public transport and to arrive at a station the electronic equipment of information searching function.

Object of the present invention is achieved through the following technical solutions:

The invention provides and a kind ofly possess public transport and to arrive at a station the electronic equipment of information searching function, this electronic equipment comprises electrochromic device, power module, control module and sensing module, when passenger is near this electronic equipment by bus for needs, sensing module works, then power module work is regulated by control module, and then regulate the size of current of electrochromic device, public transport can be realized to arrive at a station the continuous visual adjustment of information, public transport is arrived at a station information to facilitate passenger to check at any time, easily, and use is simple, convenient, is beneficial to suitability for industrialized production.

Described electronic equipment comprises electrochromic device, power module, control module and sensing module; This sensing module can respond to passenger's range information; This power module provides the working power of electrochromic device; This control module passes through size of current in regulating circuit, to reach the object controlling electrochromic device transmittance; Described electrochromic device adopts solid-state complementary type electrochromic device structure, and electrochromic material is respectively tungsten oxide and nickel oxide material; Described electrochromic device through-thickness is made up of following film from top to bottom successively: ito glass substrate (1), WO ₃porous membrane (2), MnO ₂horseradish peroxidase film (7), WO ₃nano wire film (3), solid electrolyte (4), Au nanoparticulate thin films (5), NiO porous membrane (6) and ito glass substrate (1); Described Au nanoparticulate thin films thickness is 13nm.

Preferably, the preparation method of described electrochromic device is as follows:

Step one, prepares electrochromic layer WO ₃nano thin-film: a) first, gets certain size ito glass substrate (1), through acetone, ethanol, deionized water ultrasonic cleaning, puts into magnetic control sputtering device, at base vacuum lower than 1.5 × 10 ^-3pa, sputtering current are under 1.8A condition, magnetron sputtering time 20min, obtain the W film of 900nm; B) then, to be coated with the ito glass of W film for anode, platinized platinum is negative electrode, in the NaF solution of 0.2wt.%, carry out anodized, and voltage is 50V, and the time is 30min, by washed with de-ionized water after anodized, obtains the W film with porous structure; C) make catalyzer at the Ni film of the ito glass surface magnetic control sputtering one deck 5nm through anodized, this ito glass is put into CVD tubular furnace, under argon gas and hydrogen effect, 400 DEG C of insulation 4h, growth WO ₃nano wire film (3), porous W film is oxidized to WO simultaneously ₃porous membrane (2);

Step 2, preparation MnO ₂horseradish peroxidase film (7): by stratiform MnO ₂be dispersed in the aqueous solution of Tetramethylammonium hydroxide, centrifugal after stirred at ambient temperature, the supernatant obtained is MnO ₂nano-film sol; By isopyknic MnO ₂after the horseradish peroxidase based sols of nano-film sol and HRP solution 5g/L fully mixes, with micro sample adding appliance by 10 μ LMnO ₂nano-film sol and HRP mixed solution drip in WO ₃porous membrane surface, namely at WO after drying ₃porous membrane surface obtains MnO ₂horseradish peroxidase film (7);

Step 3, preparation ion storage NiO porous membrane (6): a) in 500ml beaker by 0.16mol nickelous sulfate, 0.1mol lithium perchlorate, 0.03mol potassium persulfate is dissolved in 400ml deionized water, form dark green solution, getting certain size ito glass is substrate, ito glass back side adhesive tape seals, vertically put and stand in beaker, under the stirring of 300rpm, 40ml ammoniacal liquor (25 ~ 28%) is poured into, sedimentation time is 10min, clean with deionized water rinsing after taking-up, in 80 DEG C of baking ovens after drying, thermal treatment 2h under 200 DEG C of hydrogen shields, obtain NiO film, b) adopt the anodizing process NiO film in step one b, voltage is 30V, and the time is 25min, obtains NiO porous membrane (6), c) ito glass with porous structure NiO film is put into gold spraying instrument, spraying plating Au nanoparticulate thin films (5),

Step 4, prepare colloidal sol type solid electrolyte (4): under room temperature, first 0.2mol citric acid is dissolved in 100ml absolute ethyl alcohol, add 0.1mol ethyl orthosilicate again, then 5g lithium carbonate and the also fully dissolving of 8g urea is added, finally add 20g ethylene glycol to promote the carrying out of polyreaction, gained colourless transparent solution is heated to 60O DEG C of held for some time and obtains colloidal sol, the viscosity of colloidal sol increases with the prolongation of temperature retention time;

Step 5, assembling electrochromic device: will the ito glass of NiO film is coated with and be coated with WO ₃the ito glass of film is staggered relatively, and centre insulator separates, and insulation thickness is about 1mm, edge epoxy sealing, stays an aperture to be used for injecting electrolytic solution; Then colloidal sol syringe viscosity being about 35cps is injected between two panels ito glass, makes colloidal sol be polymerized and solidify completely device, obtain solid-state complementary type electrochromic device at 80 DEG C of insulation 24h.

Compared to existing technology, the present invention has following beneficial effect:

1. configuration aspects: adopt complementary type electrochromic device structure, electrochromic material is respectively tungsten oxide and nickel oxide material, and at coloured state, light transmission rate reduces greatly, increases light range of adjustment; Nickel oxide film, simultaneously as ion storage and photochromic layer, simplifies device architecture;

2.WO ₃electrochomeric films is that porous structure is combined with nano wire, significantly increases the specific surface area of this material, is conducive to reducing the painted response time, in addition, at WO ₃the preparation of porous membrane surface has MnO ₂horseradish peroxidase film, enhances the sensitivity of electrochromic device, and then greatly can reduce the reaction time;

3.NiO film be porous structure in conjunction with Au nano particle, Au nano particle plays catalytic action to the painted of NiO film, greatly improves its coloration efficiency, make this public transport arrive at a station inquiry electronic equipment can show information fast and accurately.

Accompanying drawing explanation

Utilize accompanying drawing to be described further invention, but the embodiment in accompanying drawing does not form any limitation of the invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to the following drawings.

Fig. 1 is the structural representation of electrochromic device of the present invention.Wherein, 1-ITO substrate of glass, 2-WO ₃porous membrane, 3-WO ₃nano wire film, 4-solid electrolyte, 5-Au nano thin-film, 6-NiO porous membrane, 7-MnO ₂horseradish peroxidase film.

Embodiment

Electrochromism phenomenon refers to that phenomenon that is stable, reversible change occurs the optical properties (absorptivity, transmitance, reflectivity etc.) of material under the effect of extra electric field, shows as the reversible change of color and transparency in appearance.Its essence is the course of reaction that a kind of chemistry is reversible.

Electrochromic material is a kind of novel energy-saving material, for energy-conserving and environment-protective provide a kind of new approach.It has application potential in fields such as low energy consumption display, Electronic Paper, intelligent windows, such as in smart window field, environmentally temperature, sunshine etc. situation, it can regulate the optical property of glass, plays the effect of saving indoor energy resource consumption.

Many materials being heated, illumination, under the effect such as extra electric field, its color can change, produce to cause look and resemble.Inorganic electrochromic material is based on transition metal oxide, and wherein tungstic acid is a kind of important cathode electrochromic material, has that coloration efficiency is high, the response time is short, cycle index advantages of higher.WO 3 film has amorphous state and crystalline state two type, the coloration efficiency of amorphous state WO 3 film is high, color conversion is fast, but it is loosely organized, poor chemical stability, crystalline state tungstic acid close structure, chemical stability is good, but its coloration efficiency and response time performance are not as amorphous state tungstic acid, but research finds that the electrochromic property of tungstic acid depends on its surface topography and crystal structure to a great extent.

Nickel oxide is a kind of typical anode electrochromic material.Nickel oxide due to its state of fading more transparent, coloured state has soft neutral color (grey), close to the sensitive band of human eye to light wave, and as anodic coloration material, can form complementary type electrochromic device with tungsten oxide etc.

The structure of electrochromic device is generally sandwich structure, mainly comprises: transparency conducting layer, electrochromic layer, ion conductive layer, ion storage and transparency conducting layer.The effect of transparency conducting layer be in electrochemical reaction for electrochromic material provides the conductor of electronics, generally use tin-doped indium oxide (ITO) film or fluorine doped tin oxide (FTO) film; Electrochromic layer is the core layer of device, mainly occurs with the form of electrochomeric films, comprises organic and inorganic electrochromic material; Ion conductor layer is dielectric substrate, the passage of conducting ion, electronics when providing electrochromic device normally to work; Ion storage is also known as to electrode layer, and Main Function stores and provide the ion needed for electrochromism, plays the effect of balancing charge.

The principle of work of electrochromic device is: between two transparency conducting layers, add certain voltage, under impressed voltage effect, electronics and ion inject electrochromic layer jointly, and make it that redox electrochemical reaction occur and painted, ion storage plays when electrochromic material generation redox reaction and stores corresponding gegenion, keep the effect of the charge balance of whole system, when applying reverse voltage, electronics and ion are extracted out and make it fade in painted electrochromic layer.

, the problem such as colouring rate low and cycle life short little for existing electrochromic device light range of adjustment, the present invention is based on tungsten trioxide nano material, simultaneously in conjunction with nickel oxide nano design of material complementary type electrochromic device.Using tungsten oxide nano film as anode electrochromic material, nickel oxide nano film is as cathode electrochromic material, and adulterate Au nano particle simultaneously, prepares porous structure.

The present invention relates to and a kind ofly possess public transport and to arrive at a station the electronic equipment of information searching function, this electronic equipment comprises electrochromic device, power module, control module and sensing module, when passenger is near this electronic equipment by bus for needs, sensing module works, then power module work is regulated by control module, and then regulate the size of current of electrochromic device, public transport can be realized to arrive at a station the continuous visual adjustment of information, public transport is arrived at a station information to facilitate passenger to check at any time, easily, and use is simple, convenient, is beneficial to suitability for industrialized production.

Illustrate that the invention will be further described below in conjunction with accompanying drawing.

Fig. 1 is the structural representation of electrochromic device of the present invention.

Wherein, 1-ITO substrate of glass, 2-WO ₃porous membrane, 3-WO ₃nano wire film, 4-solid electrolyte, 5-Au nano thin-film, 6-NiO porous membrane, 7-MnO ₂horseradish peroxidase film.

The invention will be further described with the following Examples.

Embodiment 1:

What embodiments of the invention provided a kind ofly possesses public transport and to arrive at a station the electronic equipment of information searching function, this electronic equipment comprises electrochromic device, power module, control module and sensing module, when passenger is near this electronic equipment by bus for needs, sensing module works, then power module work is regulated by control module, and then regulate the size of current of electrochromic device, public transport can be realized to arrive at a station the continuous visual adjustment of information, public transport is arrived at a station information to facilitate passenger to check at any time, easily, and use is simple, convenient, is beneficial to suitability for industrialized production.

Described electronic equipment comprises electrochromic device, power module, control module and sensing module; This sensing module can respond to passenger's range information; This power module provides the working power of electrochromic device; This control module passes through size of current in regulating circuit, to reach the object controlling electrochromic device transmittance; Described electrochromic device adopts solid-state complementary type electrochromic device structure, and electrochromic material is respectively tungsten oxide and nickel oxide material; Described electrochromic device through-thickness is made up of following film from top to bottom successively: ito glass substrate (1), WO ₃porous membrane (2), MnO ₂horseradish peroxidase film (7), WO ₃nano wire film (3), solid electrolyte (4), Au nanoparticulate thin films (5), NiO porous membrane (6) and ito glass substrate (1); Described Au nanoparticulate thin films thickness is 13nm.

Preferably, the preparation method of described electrochromic device is as follows:

Step one, prepares electrochromic layer WO ₃nano thin-film: a) first, gets certain size ito glass substrate (1), through acetone, ethanol, deionized water ultrasonic cleaning, puts into magnetic control sputtering device, at base vacuum lower than 1.5 × 10 ^-3pa, sputtering current are under 1.8A condition, magnetron sputtering time 20min, obtain the W film of 900nm; B) then, to be coated with the ito glass of W film for anode, platinized platinum is negative electrode, in the NaF solution of 0.7wt.%, carry out anodized, and voltage is 50V, and the time is 30min, by washed with de-ionized water after anodized, obtains the W film with porous structure; C) make catalyzer at the Ni film of the ito glass surface magnetic control sputtering one deck 5nm through anodized, this ito glass is put into CVD tubular furnace, under argon gas and hydrogen effect, 400 DEG C of insulation 5h, growth WO ₃nano wire film (3), porous W film is oxidized to WO simultaneously ₃porous membrane (2);

Step 2, preparation MnO ₂horseradish peroxidase film (7): by stratiform MnO ₂be dispersed in the aqueous solution of Tetramethylammonium hydroxide, centrifugal after stirred at ambient temperature, the supernatant obtained is MnO ₂nano-film sol; By isopyknic MnO ₂after the horseradish peroxidase based sols of nano-film sol and HRP solution 5g/L fully mixes, with micro sample adding appliance by 10 μ LMnO ₂nano-film sol and HRP mixed solution drip in WO ₃porous membrane surface, namely at WO after drying ₃porous membrane surface obtains MnO ₂horseradish peroxidase film (7);

Step 3, preparation ion storage NiO porous membrane (6): a) in 500ml beaker by 0.16mol nickelous sulfate, 0.1mol lithium perchlorate, 0.03mol potassium persulfate is dissolved in 400ml deionized water, form dark green solution, getting certain size ito glass is substrate, ito glass back side adhesive tape seals, vertically put and stand in beaker, under the stirring of 300rpm, 40ml ammoniacal liquor (25 ~ 28%) is poured into, sedimentation time is 10min, clean with deionized water rinsing after taking-up, in 80 DEG C of baking ovens after drying, thermal treatment 2h under 200 DEG C of hydrogen shields, obtain NiO film, b) adopt the anodizing process NiO film in step one b, voltage is 30V, and the time is 25min, obtains NiO porous membrane (6), c) ito glass with porous structure NiO film is put into gold spraying instrument, spraying plating Au nanoparticulate thin films (5),

Step 4, prepare colloidal sol type solid electrolyte (4): under room temperature, first 0.2mol citric acid is dissolved in 100ml absolute ethyl alcohol, add 0.1mol ethyl orthosilicate again, then 5g lithium carbonate and the also fully dissolving of 8g urea is added, finally add 20g ethylene glycol to promote the carrying out of polyreaction, gained colourless transparent solution is heated to 60O DEG C of held for some time and obtains colloidal sol, the viscosity of colloidal sol increases with the prolongation of temperature retention time;

Step 5, assembling electrochromic device: will the ito glass of NiO film is coated with and be coated with WO ₃the ito glass of film is staggered relatively, and centre insulator separates, and insulation thickness is about 1mm, edge epoxy sealing, stays an aperture to be used for injecting electrolytic solution; Then colloidal sol syringe viscosity being about 35cps is injected between two panels ito glass, makes colloidal sol be polymerized and solidify completely device, obtain solid-state complementary type electrochromic device at 80 DEG C of insulation 24h.

The electrochromic property test of device:

By two panels ito glass external wire, make respectively to be coated with WO ₃the external test circuit positive pole of ito glass of film, NiO film, negative pole, adopt cyclic voltammetry, sweep speed is 30mV/s.When device institute making alive is from+3V to-3V, the color of device becomes opaque from transparent, and color increases with negative pressure and deepens; In state of fading, the transmitance of this device at 550nm place about 80%, in the transmitance about 14% of this device of coloured state, show good transmitance controllability, its variable color efficiency is 93cm ²c ^-1; The painted response time of device is about 7s, and the response time of fading is about 11s; By device being carried out long chrono-amperometric test and by its peak point current of contrast, testing its cycle life, after obtaining this device cycle 3000 times, attenuation rate is 12%, good stability.

By test, this public transport arrive at a station the sensitivity of information inquiry electronic equipment and coloration efficiency higher, variable color and fade rates fast, greatly reduce at coloured state light transmission rate, and increase light range of adjustment, public transport can be shown easily fast to arrive at a station information, economize energy, object easy to use can be played.

Embodiment 2:

What embodiments of the invention provided a kind ofly possesses public transport and to arrive at a station the electronic equipment of information searching function, this electronic equipment comprises electrochromic device, power module, control module and sensing module, when passenger is near this electronic equipment by bus for needs, sensing module works, then power module work is regulated by control module, and then regulate the size of current of electrochromic device, public transport can be realized to arrive at a station the continuous visual adjustment of information, public transport is arrived at a station information to facilitate passenger to check at any time, easily, and use is simple, convenient, is beneficial to suitability for industrialized production.

Described electronic equipment comprises electrochromic device, power module, control module and sensing module; This sensing module can respond to passenger's range information; This power module provides the working power of electrochromic device; This control module passes through size of current in regulating circuit, to reach the object controlling electrochromic device transmittance; Described electrochromic device adopts solid-state complementary type electrochromic device structure, and electrochromic material is respectively tungsten oxide and nickel oxide material; Described electrochromic device through-thickness is made up of following film from top to bottom successively: ito glass substrate (1), WO ₃porous membrane (2), MnO ₂horseradish peroxidase film (7), WO ₃nano wire film (3), solid electrolyte (4), Au nanoparticulate thin films (5), NiO porous membrane (6) and ito glass substrate (1); Described Au nanoparticulate thin films thickness is 14nm.

Preferably, the preparation method of described electrochromic device is as follows:

Step one, prepares electrochromic layer WO ₃nano thin-film: a) first, gets certain size ito glass substrate (1), through acetone, ethanol, deionized water ultrasonic cleaning, puts into magnetic control sputtering device, at base vacuum lower than 1.5 × 10 ^-3pa, sputtering current are under 1.8A condition, magnetron sputtering time 20min, obtain the W film of 460nm; B) then, to be coated with the ito glass of W film for anode, platinized platinum is negative electrode, in the NaF solution of 0.3wt.%, carry out anodized, and voltage is 50V, and the time is 30min, by washed with de-ionized water after anodized, obtains the W film with porous structure; C) make catalyzer at the Ni film of the ito glass surface magnetic control sputtering one deck 7nm through anodized, this ito glass is put into CVD tubular furnace, under argon gas and hydrogen effect, 400 DEG C of insulation 4h, growth WO ₃nano wire film (3), porous W film is oxidized to WO simultaneously ₃porous membrane (2);

Step 2, preparation MnO ₂horseradish peroxidase film (7): by stratiform MnO ₂be dispersed in the aqueous solution of Tetramethylammonium hydroxide, centrifugal after stirred at ambient temperature, the supernatant obtained is MnO ₂nano-film sol; By isopyknic MnO ₂after the horseradish peroxidase based sols of nano-film sol and HRP solution 5g/L fully mixes, with micro sample adding appliance by 10 μ LMnO ₂nano-film sol and HRP mixed solution drip in WO ₃porous membrane surface, namely at WO after drying ₃porous membrane surface obtains MnO ₂horseradish peroxidase film (7);

Step 3, preparation ion storage NiO porous membrane (6): a) in 500ml beaker by 0.16mol nickelous sulfate, 0.1mol lithium perchlorate, 0.03mol potassium persulfate is dissolved in 450ml deionized water, form dark green solution, getting certain size ito glass is substrate, ito glass back side adhesive tape seals, vertically put and stand in beaker, under the stirring of 300rpm, 40ml ammoniacal liquor (25 ~ 28%) is poured into, sedimentation time is 10min, clean with deionized water rinsing after taking-up, in 80 DEG C of baking ovens after drying, thermal treatment 2h under 200 DEG C of hydrogen shields, obtain NiO film, b) adopt the anodizing process NiO film in step one b, voltage is 30V, and the time is 15min, obtains NiO porous membrane (6), c) ito glass with porous structure NiO film is put into gold spraying instrument, spraying plating Au nanoparticulate thin films (5),

Step 4, prepare colloidal sol type solid electrolyte (4): under room temperature, first 0.2mol citric acid is dissolved in 100ml absolute ethyl alcohol, add 0.1mol ethyl orthosilicate again, then 5g lithium carbonate and the also fully dissolving of 8g urea is added, finally add 20g ethylene glycol to promote the carrying out of polyreaction, gained colourless transparent solution is heated to 60O DEG C of held for some time and obtains colloidal sol, the viscosity of colloidal sol increases with the prolongation of temperature retention time;

Step 5, assembling electrochromic device: will the ito glass of NiO film is coated with and be coated with WO ₃the ito glass of film is staggered relatively, and centre insulator separates, and insulation thickness is about 1mm, edge epoxy sealing, stays an aperture to be used for injecting electrolytic solution; Then colloidal sol syringe viscosity being about 35cps is injected between two panels ito glass, makes colloidal sol be polymerized and solidify completely device, obtain solid-state complementary type electrochromic device at 80 DEG C of insulation 24h.

The electrochromic property test of device:

By two panels ito glass external wire, make respectively to be coated with WO ₃the external test circuit positive pole of ito glass of film, NiO film, negative pole, adopt cyclic voltammetry, sweep speed is 30mV/s.When device institute making alive is from+3V to-3V, the color of device becomes opaque from transparent, and color increases with negative pressure and deepens; In state of fading, the transmitance of this device at 550nm place about 80%, in the transmitance about 11% of this device of coloured state, show good transmitance controllability, its variable color efficiency is 93cm ²c ^-1; The painted response time of device is about 12s, and the response time of fading is about 11s; By device being carried out long chrono-amperometric test and by its peak point current of contrast, testing its cycle life, after obtaining this device cycle 3000 times, attenuation rate is 19%, good stability.

By test, this public transport arrive at a station the sensitivity of information inquiry electronic equipment and coloration efficiency higher, variable color and fade rates fast, greatly reduce at coloured state light transmission rate, and increase light range of adjustment, public transport can be shown easily fast to arrive at a station information, economize energy, object easy to use can be played.

Embodiment 3:

What embodiments of the invention provided a kind ofly possesses public transport and to arrive at a station the electronic equipment of information searching function, this electronic equipment comprises electrochromic device, power module, control module and sensing module, when passenger is near this electronic equipment by bus for needs, sensing module works, then power module work is regulated by control module, and then regulate the size of current of electrochromic device, public transport can be realized to arrive at a station the continuous visual adjustment of information, public transport is arrived at a station information to facilitate passenger to check at any time, easily, and use is simple, convenient, is beneficial to suitability for industrialized production.

Described electronic equipment comprises electrochromic device, power module, control module and sensing module; This sensing module can respond to passenger's range information; This power module provides the working power of electrochromic device; This control module passes through size of current in regulating circuit, to reach the object controlling electrochromic device transmittance; Described electrochromic device adopts solid-state complementary type electrochromic device structure, and electrochromic material is respectively tungsten oxide and nickel oxide material; Described electrochromic device through-thickness is made up of following film from top to bottom successively: ito glass substrate (1), WO ₃porous membrane (2), MnO ₂horseradish peroxidase film (7), WO ₃nano wire film (3), solid electrolyte (4), Au nanoparticulate thin films (5), NiO porous membrane (6) and ito glass substrate (1); Described Au nanoparticulate thin films thickness is 15nm.

Preferably, the preparation method of described electrochromic device is as follows:

Step one, prepares electrochromic layer WO ₃nano thin-film: a) first, gets certain size ito glass substrate (1), through acetone, ethanol, deionized water ultrasonic cleaning, puts into magnetic control sputtering device, at base vacuum lower than 1.5 × 10 ^-3pa, sputtering current are under 1.8A condition, magnetron sputtering time 20min, obtain the W film of 900nm; B) then, to be coated with the ito glass of W film for anode, platinized platinum is negative electrode, in the NaF solution of 0.5wt.%, carry out anodized, and voltage is 50V, and the time is 30min, by washed with de-ionized water after anodized, obtains the W film with porous structure; C) make catalyzer at the Ni film of the ito glass surface magnetic control sputtering one deck 5nm through anodized, this ito glass is put into CVD tubular furnace, under argon gas and hydrogen effect, 380 DEG C of insulation 4h, growth WO ₃nano wire film (3), porous W film is oxidized to WO simultaneously ₃porous membrane (2);

Step 2, preparation MnO ₂horseradish peroxidase film (7): by stratiform MnO ₂be dispersed in the aqueous solution of Tetramethylammonium hydroxide, centrifugal after stirred at ambient temperature, the supernatant obtained is MnO ₂nano-film sol; By isopyknic MnO ₂after the horseradish peroxidase based sols of nano-film sol and HRP solution 5g/L fully mixes, with micro sample adding appliance by 10 μ LMnO ₂nano-film sol and HRP mixed solution drip in WO ₃porous membrane surface, namely at WO after drying ₃porous membrane surface obtains MnO ₂horseradish peroxidase film (7);

Step 3, preparation ion storage NiO porous membrane (6): a) in 500ml beaker by 0.16mol nickelous sulfate, 0.1mol lithium perchlorate, 0.07mol potassium persulfate is dissolved in 400ml deionized water, form dark green solution, getting certain size ito glass is substrate, ito glass back side adhesive tape seals, vertically put and stand in beaker, under the stirring of 300rpm, 40ml ammoniacal liquor (25 ~ 28%) is poured into, sedimentation time is 10min, clean with deionized water rinsing after taking-up, in 80 DEG C of baking ovens after drying, thermal treatment 2h under 200 DEG C of hydrogen shields, obtain NiO film, b) adopt the anodizing process NiO film in step one b, voltage is 30V, and the time is 20min, obtains NiO porous membrane (6), c) ito glass with porous structure NiO film is put into gold spraying instrument, spraying plating Au nanoparticulate thin films (5),

Step 4, prepare colloidal sol type solid electrolyte (4): under room temperature, first 0.2mol citric acid is dissolved in 100ml absolute ethyl alcohol, add 0.1mol ethyl orthosilicate again, then 5g lithium carbonate and the also fully dissolving of 8g urea is added, finally add 20g ethylene glycol to promote the carrying out of polyreaction, gained colourless transparent solution is heated to 60O DEG C of held for some time and obtains colloidal sol, the viscosity of colloidal sol increases with the prolongation of temperature retention time;

Step 5, assembling electrochromic device: will the ito glass of NiO film is coated with and be coated with WO ₃the ito glass of film is staggered relatively, and centre insulator separates, and insulation thickness is about 1mm, edge epoxy sealing, stays an aperture to be used for injecting electrolytic solution; Then colloidal sol syringe viscosity being about 35cps is injected between two panels ito glass, makes colloidal sol be polymerized and solidify completely device, obtain solid-state complementary type electrochromic device at 80 DEG C of insulation 24h.

The electrochromic property test of device:

By two panels ito glass external wire, make respectively to be coated with WO ₃the external test circuit positive pole of ito glass of film, NiO film, negative pole, adopt cyclic voltammetry, sweep speed is 30mV/s.When device institute making alive is from+3V to-3V, the color of device becomes opaque from transparent, and color increases with negative pressure and deepens; In state of fading, the transmitance of this device at 550nm place about 80%, in the transmitance about 18% of this device of coloured state, show good transmitance controllability, its variable color efficiency is 93cm ²c ^-1; The painted response time of device is about 9s, and the response time of fading is about 21s; By device being carried out long chrono-amperometric test and by its peak point current of contrast, testing its cycle life, after obtaining this device cycle 3000 times, attenuation rate is 12%, good stability.

By test, this public transport arrive at a station the sensitivity of information inquiry electronic equipment and coloration efficiency higher, variable color and fade rates fast, greatly reduce at coloured state light transmission rate, and increase light range of adjustment, public transport can be shown easily fast to arrive at a station information, economize energy, object easy to use can be played.

Embodiment 4:

What embodiments of the invention provided a kind ofly possesses public transport and to arrive at a station the electronic equipment of information searching function, this electronic equipment comprises electrochromic device, power module, control module and sensing module, when passenger is near this electronic equipment by bus for needs, sensing module works, then power module work is regulated by control module, and then regulate the size of current of electrochromic device, public transport can be realized to arrive at a station the continuous visual adjustment of information, public transport is arrived at a station information to facilitate passenger to check at any time, easily, and use is simple, convenient, is beneficial to suitability for industrialized production.

Described electronic equipment comprises electrochromic device, power module, control module and sensing module; This sensing module can respond to passenger's range information; This power module provides the working power of electrochromic device; This control module passes through size of current in regulating circuit, to reach the object controlling electrochromic device transmittance; Described electrochromic device adopts solid-state complementary type electrochromic device structure, and electrochromic material is respectively tungsten oxide and nickel oxide material; Described electrochromic device through-thickness is made up of following film from top to bottom successively: ito glass substrate (1), WO ₃porous membrane (2), MnO ₂horseradish peroxidase film (7), WO ₃nano wire film (3), solid electrolyte (4), Au nanoparticulate thin films (5), NiO porous membrane (6) and ito glass substrate (1); Described Au nanoparticulate thin films thickness is 16nm.

Preferably, the preparation method of described electrochromic device is as follows:

Step one, prepares electrochromic layer WO ₃nano thin-film: a) first, gets certain size ito glass substrate (1), through acetone, ethanol, deionized water ultrasonic cleaning, puts into magnetic control sputtering device, at base vacuum lower than 1.5 × 10 ^-3pa, sputtering current are under 1.8A condition, magnetron sputtering time 40min, obtain the W film of 900nm; B) then, to be coated with the ito glass of W film for anode, platinized platinum is negative electrode, in the NaF solution of 0.2wt.%, carry out anodized, and voltage is 50V, and the time is 30min, by washed with de-ionized water after anodized, obtains the W film with porous structure; C) make catalyzer at the Ni film of the ito glass surface magnetic control sputtering one deck 5nm through anodized, this ito glass is put into CVD tubular furnace, under argon gas and hydrogen effect, 400 DEG C of insulation 4h, growth WO ₃nano wire film (3), porous W film is oxidized to WO simultaneously ₃porous membrane (2);

Step 2, preparation MnO ₂horseradish peroxidase film (7): by stratiform MnO ₂be dispersed in the aqueous solution of Tetramethylammonium hydroxide, centrifugal after stirred at ambient temperature, the supernatant obtained is MnO ₂nano-film sol; By isopyknic MnO ₂after the horseradish peroxidase based sols of nano-film sol and HRP solution 5.2g/L fully mixes, with micro sample adding appliance by 10 μ LMnO ₂nano-film sol and HRP mixed solution drip in WO ₃porous membrane surface, namely at WO after drying ₃porous membrane surface obtains MnO ₂horseradish peroxidase film (7);

Step 3, preparation ion storage NiO porous membrane (6): a) in 500ml beaker by 0.16mol nickelous sulfate, 0.1mol lithium perchlorate, 0.03mol potassium persulfate is dissolved in 400ml deionized water, form dark green solution, getting certain size ito glass is substrate, ito glass back side adhesive tape seals, vertically put and stand in beaker, under the stirring of 300rpm, 40ml ammoniacal liquor (25 ~ 28%) is poured into, sedimentation time is 19min, clean with deionized water rinsing after taking-up, in 80 DEG C of baking ovens after drying, thermal treatment 2h under 200 DEG C of hydrogen shields, obtain NiO film, b) adopt the anodizing process NiO film in step one b, voltage is 50V, and the time is 25min, obtains NiO porous membrane (6), c) ito glass with porous structure NiO film is put into gold spraying instrument, spraying plating Au nanoparticulate thin films (5),

Step 4, prepare colloidal sol type solid electrolyte (4): under room temperature, first 0.2mol citric acid is dissolved in 100ml absolute ethyl alcohol, add 0.1mol ethyl orthosilicate again, then 5g lithium carbonate and the also fully dissolving of 8g urea is added, finally add 20g ethylene glycol to promote the carrying out of polyreaction, gained colourless transparent solution is heated to 60O DEG C of held for some time and obtains colloidal sol, the viscosity of colloidal sol increases with the prolongation of temperature retention time;

Step 5, assembling electrochromic device: will the ito glass of NiO film is coated with and be coated with WO ₃the ito glass of film is staggered relatively, and centre insulator separates, and insulation thickness is about 1mm, edge epoxy sealing, stays an aperture to be used for injecting electrolytic solution; Then colloidal sol syringe viscosity being about 35cps is injected between two panels ito glass, makes colloidal sol be polymerized and solidify completely device, obtain solid-state complementary type electrochromic device at 80 DEG C of insulation 24h.

The electrochromic property test of device:

By two panels ito glass external wire, make respectively to be coated with WO ₃the external test circuit positive pole of ito glass of film, NiO film, negative pole, adopt cyclic voltammetry, sweep speed is 30mV/s.When device institute making alive is from+3V to-3V, the color of device becomes opaque from transparent, and color increases with negative pressure and deepens; In state of fading, the transmitance of this device at 550nm place about 80%, in the transmitance about 29% of this device of coloured state, show good transmitance controllability, its variable color efficiency is 93cm ²c ^-1; The painted response time of device is about 6s, and the response time of fading is about 21s; By device being carried out long chrono-amperometric test and by its peak point current of contrast, testing its cycle life, after obtaining this device cycle 3000 times, attenuation rate is 14%, good stability.

By test, this public transport arrive at a station the sensitivity of information inquiry electronic equipment and coloration efficiency higher, variable color and fade rates fast, greatly reduce at coloured state light transmission rate, and increase light range of adjustment, public transport can be shown easily fast to arrive at a station information, economize energy, object easy to use can be played.

Embodiment 5:

What embodiments of the invention provided a kind ofly possesses public transport and to arrive at a station the electronic equipment of information searching function, this electronic equipment comprises electrochromic device, power module, control module and sensing module, when passenger is near this electronic equipment by bus for needs, sensing module works, then power module work is regulated by control module, and then regulate the size of current of electrochromic device, public transport can be realized to arrive at a station the continuous visual adjustment of information, public transport is arrived at a station information to facilitate passenger to check at any time, easily, and use is simple, convenient, is beneficial to suitability for industrialized production.

Described electronic equipment comprises electrochromic device, power module, control module and sensing module; This sensing module can respond to passenger's range information; This power module provides the working power of electrochromic device; This control module passes through size of current in regulating circuit, to reach the object controlling electrochromic device transmittance; Described electrochromic device adopts solid-state complementary type electrochromic device structure, and electrochromic material is respectively tungsten oxide and nickel oxide material; Described electrochromic device through-thickness is made up of following film from top to bottom successively: ito glass substrate (1), WO ₃porous membrane (2), MnO ₂horseradish peroxidase film (7), WO ₃nano wire film (3), solid electrolyte (4), Au nanoparticulate thin films (5), NiO porous membrane (6) and ito glass substrate (1); Described Au nanoparticulate thin films thickness is 17nm.

Preferably, the preparation method of described electrochromic device is as follows:

Step one, prepares electrochromic layer WO ₃nano thin-film: a) first, gets certain size ito glass substrate (1), through acetone, ethanol, deionized water ultrasonic cleaning, puts into magnetic control sputtering device, at base vacuum lower than 1.5 × 10 ^-3pa, sputtering current are under 1.8A condition, magnetron sputtering time 20min, obtain the W film of 900nm; B) then, to be coated with the ito glass of W film for anode, platinized platinum is negative electrode, in the NaF solution of 0.2wt.%, carry out anodized, and voltage is 50V, and the time is 30min, by washed with de-ionized water after anodized, obtains the W film with porous structure; C) make catalyzer at the Ni film of the ito glass surface magnetic control sputtering one deck 5nm through anodized, this ito glass is put into CVD tubular furnace, under argon gas and hydrogen effect, 380 DEG C of insulation 4h, growth WO ₃nano wire film (3), porous W film is oxidized to WO simultaneously ₃porous membrane (2);

Step 2, preparation MnO ₂horseradish peroxidase film (7): by stratiform MnO ₂be dispersed in the aqueous solution of Tetramethylammonium hydroxide, centrifugal after stirred at ambient temperature, the supernatant obtained is MnO ₂nano-film sol; By isopyknic MnO ₂after the horseradish peroxidase based sols of nano-film sol and HRP solution 5.4g/L fully mixes, with micro sample adding appliance by 10 μ LMnO ₂nano-film sol and HRP mixed solution drip in WO ₃porous membrane surface, namely at WO after drying ₃porous membrane surface obtains MnO ₂horseradish peroxidase film (7);

Step 3, preparation ion storage NiO porous membrane (6): a) in 500ml beaker by 0.16mol nickelous sulfate, 0.1mol lithium perchlorate, 0.03mol potassium persulfate is dissolved in 400ml deionized water, form dark green solution, getting certain size ito glass is substrate, ito glass back side adhesive tape seals, vertically put and stand in beaker, under the stirring of 300rpm, 40ml ammoniacal liquor (25 ~ 28%) is poured into, sedimentation time is 10min, clean with deionized water rinsing after taking-up, in 80 DEG C of baking ovens after drying, thermal treatment 2h under 200 DEG C of hydrogen shields, obtain NiO film, b) adopt the anodizing process NiO film in step one b, voltage is 30V, and the time is 25min, obtains NiO porous membrane (6), c) ito glass with porous structure NiO film is put into gold spraying instrument, spraying plating Au nanoparticulate thin films (5),

Step 4, prepare colloidal sol type solid electrolyte (4): under room temperature, first 0.2mol citric acid is dissolved in 100ml absolute ethyl alcohol, add 0.1mol ethyl orthosilicate again, then 5g lithium carbonate and the also fully dissolving of 8g urea is added, finally add 20g ethylene glycol to promote the carrying out of polyreaction, gained colourless transparent solution is heated to 60O DEG C of held for some time and obtains colloidal sol, the viscosity of colloidal sol increases with the prolongation of temperature retention time;

Step 5, assembling electrochromic device: will the ito glass of NiO film is coated with and be coated with WO ₃the ito glass of film is staggered relatively, and centre insulator separates, and insulation thickness is about 4mm, edge epoxy sealing, stays an aperture to be used for injecting electrolytic solution; Then colloidal sol syringe viscosity being about 30cps is injected between two panels ito glass, makes colloidal sol be polymerized and solidify completely device, obtain solid-state complementary type electrochromic device at 80 DEG C of insulation 24h.

The electrochromic property test of device:

By two panels ito glass external wire, make respectively to be coated with WO ₃the external test circuit positive pole of ito glass of film, NiO film, negative pole, adopt cyclic voltammetry, sweep speed is 30mV/s.When device institute making alive is from+3V to-3V, the color of device becomes opaque from transparent, and color increases with negative pressure and deepens; In state of fading, the transmitance of this device at 550nm place about 80%, in the transmitance about 12% of this device of coloured state, show good transmitance controllability, its variable color efficiency is 88cm ²c ^-1; The painted response time of device is about 6s, and the response time of fading is about 16s; By device being carried out long chrono-amperometric test and by its peak point current of contrast, testing its cycle life, after obtaining this device cycle 3000 times, attenuation rate is 16%, good stability.

By test, this public transport arrive at a station the sensitivity of information inquiry electronic equipment and coloration efficiency higher, variable color and fade rates fast, greatly reduce at coloured state light transmission rate, and increase light range of adjustment, public transport can be shown easily fast to arrive at a station information, economize energy, object easy to use can be played.

Finally should be noted that; above embodiment is only in order to illustrate technical scheme of the present invention; but not limiting the scope of the invention; although done to explain to the present invention with reference to preferred embodiment; those of ordinary skill in the art is to be understood that; can modify to technical scheme of the present invention or equivalent replacement, and not depart from essence and the scope of technical solution of the present invention.

Claims (2)

1. possess public transport to arrive at a station the electronic equipment of information searching function, it is characterized in that: described electronic equipment comprises electrochromic device, power module, control module and sensing module; This sensing module induction passenger range information, this power module provides the working power of electrochromic device; This control module passes through size of current in regulating circuit, to reach the object controlling electrochromic device transmittance; Described electrochromic device adopts solid-state complementary type electrochromic device structure, and electrochromic material is respectively tungsten oxide and nickel oxide material; Described electrochromic device through-thickness is made up of following film from top to bottom successively: ito glass substrate (1), WO ₃porous membrane (2), MnO ₂horseradish peroxidase film (7), WO ₃nano wire film (3), solid electrolyte (4), Au nanoparticulate thin films (5), NiO porous membrane (6) and ito glass substrate (1); Described Au nanoparticulate thin films thickness is 13nm.

2. electronic equipment according to claim 1, is characterized in that, the preparation method of described electrochromic device is as follows:

Step one, prepares electrochromic layer WO ₃nano thin-film: a) first, gets certain size ito glass substrate (1), through acetone, ethanol, deionized water ultrasonic cleaning, puts into magnetic control sputtering device, at base vacuum lower than 1.5 × 10 ^-3pa, sputtering current are under 1.8A condition, magnetron sputtering time 20min, obtain the W film of 900nm; B) then, to be coated with the ito glass of W film for anode, platinized platinum is negative electrode, in the NaF solution of 0.2wt.%, carry out anodized, and voltage is 50V, and the time is 30min, by washed with de-ionized water after anodized, obtains the W film with porous structure; C) make catalyzer at the Ni film of the ito glass surface magnetic control sputtering one deck 5nm through anodized, this ito glass is put into CVD tubular furnace, under argon gas and hydrogen effect, 400 DEG C of insulation 4h, growth WO ₃nano wire film (3), porous W film is oxidized to WO simultaneously ₃porous membrane (2);

Step 2, preparation MnO ₂horseradish peroxidase film (7): by stratiform MnO ₂be dispersed in the aqueous solution of Tetramethylammonium hydroxide, centrifugal after stirred at ambient temperature, the supernatant obtained is MnO ₂nano-film sol; By isopyknic MnO ₂after the horseradish peroxidase based sols of nano-film sol and HRP solution 5g/L fully mixes, with micro sample adding appliance by 10 μ LMnO ₂nano-film sol and HRP mixed solution drip in WO ₃porous membrane surface, namely at WO after drying ₃porous membrane surface obtains MnO ₂horseradish peroxidase film (7);

Step 3, preparation ion storage NiO porous membrane (6): a) in 500ml beaker by 0.16mol nickelous sulfate, 0.1mol lithium perchlorate, 0.03mol potassium persulfate is dissolved in 400ml deionized water, form dark green solution, getting certain size ito glass is substrate, ito glass back side adhesive tape seals, vertically put and stand in beaker, under the stirring of 300rpm, 40ml ammoniacal liquor (25 ~ 28%) is poured into, sedimentation time is 10min, clean with deionized water rinsing after taking-up, in 80 DEG C of baking ovens after drying, thermal treatment 2h under 200 DEG C of hydrogen shields, obtain NiO film, b) adopt the anodizing process NiO film in step one b, voltage is 30V, and the time is 25min, obtains NiO porous membrane (6), c) ito glass with porous structure NiO film is put into gold spraying instrument, spraying plating Au nanoparticulate thin films (5),

Step 4, prepare colloidal sol type solid electrolyte (4): under room temperature, first 0.2mol citric acid is dissolved in 100ml absolute ethyl alcohol, add 0.1mol ethyl orthosilicate again, then 5g lithium carbonate and the also fully dissolving of 8g urea is added, finally add 20g ethylene glycol to promote the carrying out of polyreaction, gained colourless transparent solution is heated to 60O DEG C of held for some time and obtains colloidal sol, the viscosity of colloidal sol increases with the prolongation of temperature retention time;

Step 5, assembling electrochromic device: will the ito glass of NiO film is coated with and be coated with WO ₃the ito glass of film is staggered relatively, and centre insulator separates, and insulation thickness is about 1mm, edge epoxy sealing, stays an aperture to be used for injecting electrolytic solution; Then colloidal sol syringe viscosity being about 35cps is injected between two panels ito glass, makes colloidal sol be polymerized and solidify completely device, obtain solid-state complementary type electrochromic device at 80 DEG C of insulation 24h.