CN107154460A

CN107154460A - A kind of complete carbon-based perovskite solar cell and its preparation technology

Info

Publication number: CN107154460A
Application number: CN201710246457.4A
Authority: CN
Inventors: 孟祥悦; 周军帅; 侯杰; 陶霞
Original assignee: Beijing University of Chemical Technology
Current assignee: Beijing University of Chemical Technology
Priority date: 2017-04-15
Filing date: 2017-04-15
Publication date: 2017-09-12

Abstract

The invention discloses a kind of complete carbon-based perovskite solar cell and its preparation technology.The perovskite solar battery structure includes the substrate stacked gradually, transparency electrode, fullerene or derivatives thereof, perovskite light-absorption layer and carbon electrode, wherein fullerene or derivatives thereof is as electron transfer layer, and perovskite light-absorption layer is made up of the photovoltaic material with perovskite structure.Preparation technology, which is included on substrate, is sequentially prepared transparency electrode, fullerene electron transfer layer, perovskite light-absorption layer and carbon electrode.The preparation technology of the present invention is simple to operate, with low cost, and the stability of battery is high, and the industrialized production of battery can be achieved.

Description

A kind of complete carbon-based perovskite solar cell and its preparation technology

Technical field

The present invention relates to a kind of complete carbon-based perovskite solar cell and its preparation technology, belong to solar battery technology neck Domain.

Background technology

With increasingly sharpening the problems such as energy crisis, environmental pollution, people are more next to the demand of novel renewable energy It is more notable.Regenerative resource includes solar energy, waterpower, wind-force, biomass energy, wave energy, tide energy, ocean thermal energy etc., its Middle solar energy because have the advantages that it is repeatable utilize, it is with low cost, received much concern not to the utmost with it.Can be with to the utilization of solar energy There are many approach, there is the heat energy directly using sunshine, such as conventional solar water heater also has solar energy being first converted to it Its energy is utilized again, and such as solar cell is that the luminous energy of sunshine is converted into electric energy to be utilized again.Extensively should at present Silicon solar cell is because cost of manufacture is higher, complex manufacturing, and its popularization and application is by a definite limitation.In recent years, It is a kind of to cause people's as all solid state perovskite solar cell of light absorbent based on organo-mineral complexing perovskite material Greatly concern, this kind of perovskite solar cell photoelectric conversion efficiency is up to 22.1%, and preparation technology is simple, processing cost It is low, have become the important research focus of photovoltaic art.

Conventional carbon based perovskite solar cell, as electron transfer layer, is adsorbed in titanium dioxide usually using titanium dioxide The water oxygen on surface can be oxidized to superoxide anion and hydroxyl free radical under illumination condition, and these oxides can promptly make Calcium titanium ore bed is decomposed so that conventional carbon based perovskite solar cell light durability is poor.In order to improve carbon-based calcium titanium Ore deposit solar cell light durability, the stable and efficient electron transfer layer of selection is aobvious applied to carbon-based perovskite solar cell Obtain particularly important.

The content of the invention

It is an object of the invention to fullerene and its derivative are applied into the carbon-based perovskite sun as electron transfer layer Can battery to prepare complete carbon-based perovskite solar cell.

A kind of complete carbon-based perovskite solar cell, it is characterised in that including the substrate stacked gradually, transparency electrode, electricity Sub- transport layer, perovskite light-absorption layer and carbon electrode, perovskite light-absorption layer are made up of the photovoltaic material with perovskite structure, electricity Sub- transport layer is made up of fullerene or derivatives thereof, and thickness is 5-50nm.

Further, the constituent material of the substrate includes glass or flexiplast.

Further, described transparent electrode material includes indium tin oxide, fluorine tin-oxide, aluminium zinc oxide.

Further, described calcium titanium ore bed is ABX by chemical general formula_mY_(3-m)One or more material shapes of type crystal structure Into wherein A=CH₃NH₃、C₄H₉NH₃、NH₂=CHNH₂；B=Pb, Sn；X, Y=Cl, Br, I；M is arbitrary value in 0 to 3.

Further, described carbon electrode is CNT or carbon pastes.

Further, the preparation of electron transfer layer uses vacuum evaporation system by fullerene C₆₀WithSpeed steam It is plated on electro-conductive glass or electro-conductive glass is spun to using solution.

The invention has the advantages that：Fullerene and its derivative are applied to carbon by the present invention as electron transfer layer Based perovskite solar cell is to prepare complete carbon-based perovskite solar cell.Fullerene is the carbon after diamond, graphite The third allotrope.The unique three-dimensional conjugated structure of fullerene makes it have preferable characteristic electron and electron-transporting Matter, is the important electron transport material of a class.Fullerene surface not hydroxyl, with good stability.While fullerene Level structure and perovskite energy level comparison match, can form efficient electric transmission between perovskite and fullerene.With fowler CH can be effectively quenched as electron transfer layer in alkene or derivatives thereof₃NH₃PbI₃Fluorescence, illustrate CH₃NH₃PbI₃And fullerene Between have efficient charge transfer phenomenon.Meanwhile, carbon electrode is difficult to be oxidized corrosion, property for metal electrode It is stable.Therefore, the light of the complete carbon-based perovskite solar cell prepared with fullerene and its derivative as electron transfer layer is steady It is qualitative to greatly improve.

Brief description of the drawings

Fig. 1 is the structural representation of the perovskite solar cell device of embodiment 1 in the present invention.

Fig. 2 is the I-V curve of perovskite solar cell prepared by the embodiment of the present invention 1.

Fig. 3 is air stability test result (humidity 55%, sky of the perovskite solar cell of different electron transfer layers Gas).

Fig. 4 is C₆₀It is used as light stability test result (humidity 55%, sky of the perovskite solar cell of electron transfer layer Gas).

Embodiment

Experimental method used in following embodiments is conventional method unless otherwise specified.

Material, reagent used etc., unless otherwise specified, are commercially obtained in following embodiments.

Embodiment 1, fullerene are used as the integrated complete carbon-based perovskite solar cell device of electron transfer layer and its performance Characterize

Fig. 1 shows fullerene of the present invention as the integrated complete carbon-based perovskite solar cell device of electron transfer layer Part structure, including：Transparent conductive substrate, fullerene electron transfer layer, perovskite light-absorption layer, carbon electrode.Preparation process is as follows：

(1) cleaning of electro-conductive glass：Continuous twice of use deionized water, acetone, isopropanol are cleaned by ultrasonic 15 minutes and purple Outer ozone is handled 20 minutes.

(2) preparation of fullerene electron transfer layer：Using vacuum evaporation system 1 × 10^-7By richness under Torr vacuum Strangle alkene C₆₀WithSpeed evaporation on electro-conductive glass, evaporation thickness is 30nm.

(3) preparation of calcium titanium ore bed：By iodine methylamine and lead iodide in molar ratio 1:1 mixing is dissolved in DMF and DMSO mixing In solvent, the perovskite solution that concentration is 1M is obtained.Perovskite is spun on FTO/C₆₀Simultaneously 95 DEG C of annealing 30min are formed in substrate Calcium titanium ore bed.

(4) preparation of carbon electrode：Will be by carbon black, the carbon pastes that graphite and epoxy resin etc. are prepared by a certain percentage are uniformly applied Overlay on and carbon electrode is formed above calcium titanium ore bed, perovskite solar cell device is made.

The performance of the perovskite solar cell of above-mentioned preparation as shown in table 1 (all tests are measured under 1 sun, 100mw/cm²)。

The perovskite solar cell properties of table 1

By the C in embodiment 1₆₀It is used as electron transfer layer and the thick TiO of the 30nm of spin coating₂Electron transfer layer is contrasted, It can be seen that with C in Fig. 2 and table 1₆₀Photoelectric transformation efficiency as the perovskite solar cell of electron transfer layer is substantially high In with TiO₂It is used as the perovskite solar cell of electron transfer layer.Fig. 3 is shown with C₆₀It is used as integrated complete of electron transfer layer The air stability of carbon-based perovskite solar cell is greatly improved.Fig. 4 is shown with C₆₀It is integrated as electron transfer layer The photostability of complete carbon-based perovskite solar cell can also keep more than 99% in 100 hours.

Embodiment 2, PCBM are used as the integrated complete carbon-based perovskite solar cell of electron transfer layer

A kind of perovskite solar cell of the invention, essentially identical with the embodiment of embodiment 1 and effect, difference only exists In：Electron transfer layer uses fullerene derivate PCBM, PCBM is dissolved in the solution that 20mg/ml is formed in chlorobenzene, using molten The method spin coating 20nm of liquid spin coating is formed on electro-conductive glass.

Described above is only the preferred embodiment of the present invention, and protection scope of the present invention is not limited merely to above-mentioned implementation Example.All technical schemes belonged under thinking of the present invention belong to protection scope of the present invention.It is noted that for the art Those of ordinary skill for, improvements and modifications under the premise without departing from the principles of the invention, be regarded as the present invention guarantor Protect scope.

Claims

1. a kind of complete carbon-based perovskite solar cell, it is characterised in that including the substrate stacked gradually, transparency electrode, electronics Transport layer, perovskite light-absorption layer and carbon electrode, perovskite light-absorption layer are made up of the photovoltaic material with perovskite structure, electronics Transport layer is made up of fullerene or derivatives thereof, and thickness is 5-50nm.

2. perovskite solar cell according to claim 1, it is characterised in that：The constituent material of the substrate includes glass Glass or flexiplast.

3. perovskite solar cell according to claim 1, it is characterised in that：Described transparent electrode material includes indium Tin-oxide, fluorine tin-oxide, aluminium zinc oxide.

4. a kind of perovskite solar cell according to claim 1, it is characterised in that：Described calcium titanium ore bed is by chemistry Formula is ABX_mY_(3-m)One or more materials of type crystal structure are formed, wherein A=CH₃NH₃、C₄H₉NH₃、NH₂=CHNH₂；B =Pb, Sn；X, Y=Cl, Br, I；M is arbitrary value in 0 to 3.

5. a kind of perovskite solar cell according to claim 1, it is characterised in that：Described carbon electrode is carbon nanometer Pipe or carbon pastes.

6. the preparation technology of solar cell described in claim 1-5, it is characterised in that the preparation of electron transfer layer uses vacuum Deposition system is by fullerene C₆₀WithSpeed evaporation be spun to conductive glass on electro-conductive glass or using solution Glass.