CN105349970A - Method for preparing electronic film excellent in performance - Google Patents

Abstract

The invention provides a method for preparing a zinc oxide electronic film at a low temperature. A spray pyrolysis method is adopted, and the method comprises the steps of preparation of a precursor solution and film deposition. The precursor solution is an ammonium zinc [Zn(NH3)4)](OH)2 solution. The alkaline ammonium zinc solution is adopted as the precursor solution, the spray pyrolysis method is adopted, a movable heating platform is used as a heating source, the ZnO film good in crystallization property can be prepared at about 130 DEG C, and the method has the advantages that a substrate is not damaged, the cost is low, pollution is avoided, the method is non-toxic and harmless, and films can be prepared on a large area.

Description

A kind of electric thin preparation method of excellent performance

The application is the divisional application for application number is 201410034109.7, the applying date is on 01 24th, 2014, denomination of invention is " a kind of method of low-temperature growth zinc oxide electronic film ".

Technical field

The present invention relates to the preparation method of film, particularly relate to the preparation method of zinc-oxide film.

Background technology

Zinc-oxide film is a kind of multifunction electronic film, being prepared into transparent conductive oxide film (TCO) by mixing the elements such as B, Al, In, Ga, in touch display, solar cell window, Low emissivity (Low-E) glass etc., there is widespread use.In the recent period, it is found that unadulterated ZnO film has very important purposes at the cathode buffer layer of organic solar batteries, its photoelectric transformation efficiency (PCE) and work-ing life can be improved.

Ultrasonic spray pyrolysis making ZnO film is utilized to have relevant report, ubiquity shortcoming mainly contains: (1) depositing temperature is high, (2) can not realize big area film forming, (3) raw materials cost is high, and (4) raw material is to people and environmental toxic evil.Example: patent CN1707752A, take tube furnace as heating source, can only prepare the ZnO film of small area; Film deposition temperature high (500 ~ 800 DEG C), can only adopt resistant to elevated temperatures inorganic materials as substrate.And feed material degradation temperature of the present invention is low, can at about 130 DEG C making ZnO films; Have employed removable heating platform as heating source, can be implemented in flexible substrate and prepare big area ZnO film, adapt to volume to volume technique and scale operation requirement.Example again: YoshinoKenji.Low-TemperatureGrowthofZnOFilmsbySprayPyrol ysi: Japan, JapaneseJournalofAppliedPhysics, 50 (4), (2011) report adopts zinc ethyl and raw material, although prepare ZnO film at lesser temps (100 DEG C), but raw material zinc ethyl strong toxicity, easy Fire explosion, expensive; Preparation technology is closer to chemical vapor transportation (CVD) method, and process control relative complex, controls strict to oxygen and water vapour, therefore need to carry out under an inert atmosphere; In addition using fixing warm table as heating source, be difficult to realize big area masking.

Summary of the invention

The object of the present invention is to provide a kind of low temperature, the antivacuum method preparing large-area zinc oxide electric thin.

The object of the invention is to be realized by following measures:

A preparation method for zinc oxide electronic film, comprises the following steps:

(1) precursor liquid preparation

5 ~ 20g soluble zinc salt is dissolved in deionized water, is configured to certain density unsaturated solution, is placed in beaker.Under magnetic force or electric stirring effect, instillation strong aqua, controlling solution pH value scope is 7 ~ 8, Zn ²⁺progressively be converted into Zn (OH) ₂precipitation; Vacuum filtration, a large amount of deionized water in suction filtration limit, limit rinses precipitation repeatedly, removes acid ion (as: CH ₃cOO ^-, NO ₃ ^-, Cl ^-deng impurity), drying precipitated; Take dried precipitation, add deionized water and methyl alcohol mixed liquor disperses, then add ammoniacal liquor until resolution of precipitate, methyl alcohol volume: the volume sum of water and ammoniacal liquor is 1:2 ~ 5, and obtained pH is 10 ~ 12, [(Zn (NH ₃) ₄] ²⁺concentration is that zinc ammonium solution that 0.05 ~ 0.2mol/L is transparent is as precursor liquid;

(2) thin film deposition

Substrate (slide, PET or PMMA) is placed in removable warm table, is heated to 130 DEG C ~ 200 DEG C, sets the walking manner of removable warm table on the control panel; By finer atomization nozzle (hereinafter referred to as nozzle), fixing, adjustment nozzle height is apart from substrate 200 ~ 500mm; Run the sequence of control of removable heating platform, removable heating platform is walked automatically by setting means; Access pressurized air also opens nozzle; The precursor liquid getting 30 ~ 100ml puts into Erlenmeyer flask, and peristaltic pump is accessed nozzle, and control flow is 0.5ml/min ~ 5ml/min; Controlled air pressure for 1.5atm ~ 5atm by relief valve, liquid is atomized through gas shock, and be sprayed on film forming after substrate, sedimentation velocity is about 2nm/min ~ 10nm/min;

(3) thermal treatment

By the ZnO film of preparation and silicon to 200 DEG C ~ 250 DEG C, 2h is to improve its crystallinity in insulation; If use as TCO thin film, by ZnO film and substrate as in tube-type atmosphere furnace, after passing into week reduction gas, be evacuated to 10 ^-3pa ~ 10 ^-2pa, is heated to 400 DEG C ~ 800 DEG C, and naturally cooling after insulation 2h, to improve electroconductibility.

The present invention's chemical reagent such as zinc acetate, zinc nitrate, zinc chloride used is more than analytical pure (AR).The present invention's finer atomization nozzle material used is stainless steel, and pin nozzle aperture footpath is 0.3mm ~ 0.5mm.The present invention's removable warm table well heater used is cast aluminium hot-plate, centerand edge temperature difference < ± 1 DEG C.

the present invention has following beneficial effect:

Raw material of the present invention is not containing organometallic complex and the difficult organic solvent volatilized, and not only film deposition temperature is low, and cost is low, and preparation technology is simple, can large-scale promotion application.The present invention with the zinc ammonium solution of alkalescence for precursor liquid, adopt spray pyrolysis, using removable heating platform as heating source, the excellent ZnO film of crystallographic property can be prepared at about 130 DEG C, have and do not hinder substrate, low cost, pollution-free, the advantages such as nontoxic, technique is simple, energy big area masking.In technique, the range of choice of substrate material is large, and institute is restricted little, if with the organic film of flexibility for substrate, uses special transport unit, can realize volume to volume and produce.

ZnO film main application prepared by the present invention is the cathode buffer layer of organic solar batteries, can improve organic solar batteries photoelectric transformation efficiency (PCE); Also can by doping also as TCO thin film.The present invention obtains zinc-oxide film and has excellent performance, and in visible-range, average transmittances reaches more than 85%, surfaceness < 10nm, and not containing residual solvent, foreign matter content is below 1%.ZnO film prepared by the present invention is the ZnO film of C axle preferrel orientation, and the median size of microscopic particles is about 10nm ~ 20nm, good uniformity.

Accompanying drawing explanation

The X-ray diffraction spectrum of ZnO film prepared by Fig. 1;

The Scanning Electron microphotograph of ZnO film prepared by Fig. 2.

Embodiment

Below in conjunction with embodiment, the specific embodiment of the present invention is further described, does not therefore limit the present invention among described scope of embodiments.

embodiment 1

A method for cold nebulization thermolysis making ZnO electric thin, step is as follows:

(1) precursor liquid preparation

11g zinc acetate is dissolved in deionized water, is configured to the zinc acetate solution of 1mol/L, is placed in beaker, under magnetic force or electric stirring effect, instillation strong aqua, control solution PH is 8, Zn ²⁺progressively be converted into Zn (OH) ₂precipitation, vacuum filtration, a large amount of deionized water in suction filtration limit, limit rinses repeatedly, removes unnecessary negatively charged ion (CH ₃cOO ^-, NO ₃ ^-, Cl ^-deng impurity), dry, take 5g throw out, add 30ml deionized water and 10ml methyl alcohol, add 10ml ammoniacal liquor, resolution of precipitate, forming pH is 11, [(Zn (NH ₃) ₄] ²⁺concentration is that zinc ammonium solution that 0.1mol/L is transparent is as precursor liquid.

(2) thin film deposition

Glass fiber reinforcement PET (polyethylene terephthalate) substrate is placed in removable warm table, is heated to 130 DEG C, control the mode of motion of moveable platform, walking speed is 50mm/s, and the domain of walk is 200mm × 200mm.Adjustment nozzle and substrate distance are 300mm, access pressurized air also opens nozzle, the precursor liquid getting 50ml puts into Erlenmeyer flask, peristaltic pump is accessed Erlenmeyer flask and nozzle, precursor liquid flow control is 1ml/min, and controlled air pressure for 3atm by relief valve, liquid is atomized through gas shock, be sprayed on substrate, depositing time is 100min.

(3) thermal treatment

By the ZnO film of preparation and silicon to 200 DEG C, naturally cooling after insulation 2h.

As can be seen from the X-ray diffraction spectrum in Fig. 1, preparation be the ZnO film of C axle preferrel orientation, Fig. 2 is the SEM photo of prepared ZnO film, shows that the median size of this ZnO film microscopic particles is about 10nm ~ 20nm, good uniformity.

embodiment 2

A method for cold nebulization thermolysis making ZnO electric thin, with embodiment 1, wherein:

In (1) step, the raw material of precursor liquid preparation adopts zinc nitrate, adds 25ml deionized water and 15ml methyl alcohol in throw out.

In (2) step, substrate heating temperature is 150 DEG C.

In (3) step, the ZnO film of preparation and silicon to 250 DEG C, naturally cooling after insulation 2h.

Obtained ZnO film: in visible-range, average transmittances reaches more than 85%, surfaceness < 10nm, and not containing residual solvent, foreign matter content is below 1%, C axle preferrel orientation, the median size of microscopic particles is about 10nm ~ 20nm, good uniformity.

embodiment 3

A method for cold nebulization thermolysis making ZnO electric thin, with embodiment 1, wherein:

In (2) step, adjustment nozzle and substrate distance are 200mm, and the precursor liquid getting 30ml puts into Erlenmeyer flask, and peristaltic pump is accessed nozzle, and precursor liquid flow control is 0.5ml/min, and controlled air pressure for 2atm by relief valve, depositing time is 30min.

Obtained ZnO film: in visible-range, average transmittances reaches more than 85%, surfaceness < 10nm, and not containing residual solvent, foreign matter content is below 1%, C axle preferrel orientation, the median size of microscopic particles is about 10nm ~ 20nm, good uniformity.

embodiment 4

A method for cold nebulization thermolysis making ZnO electric thin, with embodiment 1, wherein:

In (1) step, the raw material of precursor liquid preparation adopts zinc acetate solution, and obtained pH is 10, [(Zn (NH ₃) ₄] ²⁺concentration is that zinc ammonium solution that 0.05mol/L is transparent is as precursor liquid.

In (2) step, nozzle and substrate distance are 200mm, and precursor liquid flow control is 0.5ml/min,

After (3) step completes, after insulation 2h, take out sample.

Obtained ZnO film: in visible-range, average transmittances reaches more than 85%, surfaceness < 10nm, and not containing residual solvent, foreign matter content is below 1%, C axle preferrel orientation, the median size of microscopic particles is about 10nm ~ 20nm, good uniformity.

embodiment5

A method for cold nebulization thermolysis making ZnO electric thin, with embodiment 1, wherein:

In (1) step, the raw material of precursor liquid preparation adopts zinc chloride, and be made into the liquor zinci chloridi of 0.5mol/L, obtained pH is 12, [(Zn (NH ₃) ₄] ²⁺concentration is that zinc ammonium solution that 0.2mol/L is transparent is as precursor liquid.

In (2) step, substrate heating temperature is 200 DEG C.

After (2) step completes, naturally cooling after insulation 2h.

Obtained ZnO film: in visible-range, average transmittances reaches more than 85%, surfaceness < 10nm, and not containing residual solvent, foreign matter content is below 1%, C axle preferrel orientation, the median size of microscopic particles is about 10nm ~ 20nm, good uniformity.

embodiment 6

A method for cold nebulization thermolysis making ZnO electric thin, wherein: (1) step is with embodiment 1, and (2) step and (3) step are with embodiment 4.

After (3) EOS, deposit P3HT:PCBM, PEDOT:PSS and silver electrode by spraying method successively in sample coating one side, be assembled into polymer thin-film solar cell (PSC).

Obtained ZnO film: in visible-range, average transmittances reaches more than 85%, surfaceness < 10nm, and not containing residual solvent, foreign matter content is below 1%, C axle preferrel orientation, the median size of microscopic particles is about 10nm ~ 20nm, good uniformity.

The polymer thin-film solar cell of assembling: open circuit voltage V _oCfor: 0.63V, short-circuit current J _sCfor: 8.6mA/cm ², PCE is: 3.3%.

embodiment 7

A kind of cold nebulization thermolysis making ZnO: the method for B electric thin, with embodiment 1, wherein:

In (1) step, in the precursor liquid of such as embodiment 1 method configuration, add ammonium borate (NH ₄b ₅o ₈), make B/Zn=3at% in solution.

In (2) step, take silica glass as substrate, substrate heating temperature is 200 DEG C.

In (3) step, by ZnO film and substrate as in tube-type atmosphere furnace, pass into H ₂volume content is 5%, Ar volume content is after the mixed gas of 95%, is evacuated to 10 ^-3, be heated to 600 DEG C, naturally cooling after insulation 2h.

Obtained TCO thin film: in visible-range, average transmittances reaches more than 85%, surfaceness < 10nm, and carrier concentration is: 1.4 × 10 ²²/ cm ³, resistivity is: 3.3 × 10 ^-3Ω cm.

Claims (1)

1. a method for zinc oxide electronic film is prepared in cold nebulization thermolysis, and it is characterized in that, step is as follows:

(1) precursor liquid preparation

11g zinc acetate is dissolved in deionized water, configures the zinc acetate solution into about 1mol/L, be placed in beaker, under magnetic force or electric stirring effect, instillation strong aqua, control pH value of solution is 8, Zn ²⁺progressively be converted into Zn (OH) ₂precipitation, vacuum filtration, a large amount of deionized water in suction filtration limit, limit rinses repeatedly, removes unnecessary negatively charged ion, dry, takes 5g throw out, adds 30ml deionized water and 10ml methyl alcohol, add 10ml ammoniacal liquor, resolution of precipitate, and forming pH is 11, [(Zn (NH ₃) ₄] ²⁺concentration is that zinc ammonium solution that 0.1mol/L is transparent is as precursor liquid;

(2) thin film deposition

Glass fiber reinforcement PET (polyethylene terephthalate) substrate is placed in removable warm table, is heated to 130 DEG C, control the mode of motion of moveable platform, walking speed is 50mm/s, and the domain of walk is 200mm × 200mm; Adjustment nozzle and substrate distance are 200mm, access pressurized air also opens nozzle, the precursor liquid getting 30ml puts into Erlenmeyer flask, peristaltic pump is accessed Erlenmeyer flask and nozzle, precursor liquid flow control is 0.5ml/min, and controlled air pressure for 2atm by relief valve, liquid is atomized through gas shock, be sprayed on substrate, depositing time is about 30min;

(3) thermal treatment

By the ZnO film of preparation and silicon to 200 DEG C, naturally cooling after insulation 2h.