CN108492992A - A kind of novel polymer electrolyte for dye sensitization of solar hull cell - Google Patents

Abstract

The present invention provides a kind of novel polymer electrolyte for dye sensitization of solar hull cell, the polymer dielectric includes porous polymer and the lithium salts that is filled in porous polymer.The present invention also provides a kind of dye-sensitized film solar cells, include successively from bottom to top：Vacuum glass layer；Conductive glass layer；Adsorb the nanocrystalline TiO of dye sensitizing agent₂Film layer；Electrolyte layer；To electrode layer.Polymer dielectric stability provided by the invention is good, electrochemically stable electrochemical window mouth width, can greatly improve the photoelectric conversion efficiency of battery.Dye-sensitized film solar cell mobility provided by the invention is high, energy conversion rate is high, stability is good, durability is good, long lifespan.

Description

A kind of novel polymer electrolyte for dye sensitization of solar hull cell

Technical field

It is the invention belongs to photovoltaic material field, more particularly to a kind of for the novel poly- of dye sensitization of solar hull cell Polymer electrolyte.

Background technology

With becoming increasingly conspicuous for energy shortages in global range and environmental issue, the utilization of regenerative resource causes widely Pay attention to.For photovoltaic generation as a kind of important renewable energy forms, it is technology on the largest scaleization in current regenerative resource One of the generation mode of exploit condition and commercialized development foreground, has been to be concerned by more and more people.In the past few decades, the sun The manufacturing industry scale of energy solar panel expands rapidly.2013, the growth rate of U.S.'s solar energy industry was up to 116%, in new energy It is leading in technical field." star of the solar energy " installed capacity of U.S.'s solar energy power generating project is up to 1.5 ten thousand kW；Japan SANYO solar energy Noah's ark generated outputs reach 630kW, annual 530000 kWh that generate electricity；Shenzhen world landscape flower that the country is built up is rich Garden grid-connected photovoltaic system installed capacity of looking at reaches 1MW, has come into operation at present.

Earliest photovoltaic effect is that Edmund Bequerel had found in 1839, after more than 100 years (1954), with The development of silicon semiconductor industry, first solar cell that can be used for actual power just come out in AT＆T Labs.This is too Positive energy battery is based on the p-n junction of silicon semiconductor, electricity conversion 6%.

Organic solar batteries constantly attract more people as a kind of novel battery with its exclusive feature Put into the research and development in this field.The fast of its development speed also has benefited from its exclusive advantage and characteristic, such as： It is all preferable that organic material synthesis cost is low, function is easy to modulation, flexibility and film forming；Process is relatively easy, can low temperature Operation, element manufacturing cost are relatively low；Large area manufacture can be achieved, flexible substrate can be used, is environmental-friendly, light portable etc.. Certain existing organic solar material still has many disadvantages：Material mobility is low, high bulk resistor, so as to cause energy conversion rate It is low；The stability and durability of material are not good enough, and battery life is short.

One of an important factor for polymer dielectric is influence organic solar batteries performance.

Invention content

Technical problem：In order to solve the defects of prior art, it is thin for dye sensitization of solar that the present invention provides one kind The novel polymer electrolyte of film battery.

Technical solution：A kind of new polymers for dye sensitization of solar hull cell provided by the invention is electrolysed Matter, the polyelectrolyte floor include porous polymer and the lithium salts that is filled in porous polymer；The porous polymeric Object is the polymer of benzyl chloride and bis- (methoxy) biphenyl of 4,4`-；The lithium salts is LiClO₄。

As an improvement, the benzyl chloride and 4, the preparation method of the polymer of bis- (methoxy) biphenyl of 4`-, including with Lower step：Under nitrogen protection, by molar ratio (1-2)：1：Bis- (methoxy) biphenyl of benzyl chloride, 4,4`- of (2-4), trichlorine Change iron to be added in organic solvent, stir evenly, react at room temperature 10-12h, it is cooling, be filtered, washed, dry to get.

The present invention also provides a kind of dye-sensitized film solar cells, include successively from bottom to top：

(1) vacuum glass layer；

(2) conductive glass layer；

(3) the nanocrystalline TiO2 film layers of dye sensitizing agent are adsorbed；

(4) electrolyte layer；The above-mentioned polymer for dye sensitization of solar hull cell is filled in the electrolyte layer Electrolyte；

(5) to electrode layer.

As an improvement, the nanocrystalline TiO₂Film layer is the nanocrystalline TiO of modification₂Film, the modification it is nanocrystalline TiO₂Film is nano silver, La, Ce co-doped nano crystalline substance TiO₂Film.

Preferably, the nano silver, La, Ce codope co-doped nano crystalline substance TiO₂The preparation method of film is：

(1) in ice-water bath, stirring is simultaneously by 1.0 × 10^-3The AgNO of mol/L₃Aqueous solution is added dropwise 2.0 × 10^-3mol/L NaBH₄To get Nano silver solution in aqueous solution；

(2) La is configured₂O₃、Ce₂O₃Suspension, and be added dropwise in the Nano silver solution of step (1), shading is stood 10min, then 5-10min is exposed under simulated solar light source, it stands, removes supernatant liquor；

(3) boric acid and ammonium hexa-fluorotitanate mixed solution are configured, the sediment of step (2) is added, reacts 1-2h, stands, goes Fall supernatant liquor；

(4) step (3) product is dried, and is heated up with 5 DEG C/min rates, at 400 DEG C of temperature annealing 40-60min to get.

In step (1), AgNO₃Aqueous solution and NaBH₄The volume ratio of aqueous solution is 1:(1-1.2).

In step (2), La₂O₃、Ce₂O₃And AgNO₃Molar ratio be 1:(0.3-0.5):(4-6).

In step (3), the molar ratio of boric acid and ammonium hexa-fluorotitanate is that the molar ratio of boric acid and ammonium hexa-fluorotitanate is (4-6)： 1；Ammonium hexa-fluorotitanate and AgNO₃Molar ratio be (3-5)：1.

As an improvement, the dye sensitizing agent is dye sensitizing agent shown in formula (I) or is double-core shown in formula (IV) Dye sensitizing agent：

Wherein, the preparation method of dye sensitizing agent shown in formula (I), includes the following steps：In the presence of triethylamine, formula (II) compound and formula (III) compound reaction to get；Reaction equation is：

Preferably, formula (II) compound, formula (III) compound, the molar ratio of triethylamine are 1：(1-1.2)：(2-4), instead It is room temperature, reaction time 3-5h to answer temperature.

Wherein, the preparation method of double-core dye sensitizing agent shown in formula (IV), includes the following steps：

(1) in the presence of triethylamine, formula (II) compound and formula (III) compound reaction to get；Reaction equation is：

(2) in the presence of 1,1-, bis- pyrazolyl acetic acids, compound, metal chloride back flow reaction described in formula (I) to get； Reaction equation is：

Wherein, M is metal, and x is charge number.

In step (1), formula (II) compound, formula (III) compound, the molar ratio of triethylamine are 1：(1-1.2)：(2-4), Reaction temperature is room temperature, reaction time 3-5h.

In step (2), M Ru, Zn, Pr, Nd, Gd, Dy, Ho, Er or Tm.

In step (2), reaction time 120-140h；Bis- pyrazolyl acetic acids of 1,1-, formula (I) compound, metal chloride Molar ratio is 1：1：(1.2-1.5).

Advantageous effect：Polymer dielectric stability provided by the invention is good, electrochemically stable electrochemical window mouth width, Neng Gou great The big photoelectric conversion efficiency for improving battery.

Dye-sensitized film solar cell mobility provided by the invention is high, energy conversion rate is high, stability is good, durable The good, long lifespan of property.

Specific implementation mode

The present invention is further illustrated below.

Embodiment 1-1

The preparation method of new dye photosensitizer, includes the following steps：In the presence of triethylamine, formula (II) compound and Formula (III) compound reaction to get；Reaction equation is：

Wherein, formula (II) compound, formula (III) compound, the molar ratio of triethylamine are 1：1.1：3, reaction temperature is room Temperature, reaction time 4h.

MS(m/z):559.2。

Embodiment 1-2

The preparation method of new dye photosensitizer, includes the following steps：In the presence of triethylamine, formula (II) compound and Formula (III) compound reaction to get；

Wherein, formula (II) compound, formula (III) compound, the molar ratio of triethylamine are 1：1：2, reaction temperature is room temperature, Reaction time is 3h.

MS(m/z):559.2。

Embodiment 1-3

The preparation method of new dye photosensitizer, includes the following steps：In the presence of triethylamine, formula (II) compound and Formula (III) compound reaction to get；

Wherein, formula (II) compound, formula (III) compound, the molar ratio of triethylamine are 1：1.2：4, reaction temperature is room Temperature, reaction time 5h.

MS(m/z):559.2。

Embodiment 2

The preparation method of new double-core dye photoactivation agent, includes the following steps：In the presence of 1,1-, bis- pyrazolyl acetic acids, formula (I) compound, metal chloride back flow reaction described in get；Reaction equation is：

A batch double-core dye photoactivation agent is made, condition see the table below.

Embodiment 3-1

For the modified Nano crystalline substance TiO2 films of dye-sensitized film solar cell, the modified Nano crystalline substance TiO2 films For nano silver and La co-doped nano crystalline substances TiO₂Film, preparation method includes the following steps：

(1) in ice-water bath, stirring is simultaneously by 1.0 × 10^-3The AgNO of mol/L₃Aqueous solution is added dropwise 2.0 × 10^-3mol/L NaBH₄To get Nano silver solution in aqueous solution；Wherein, AgNO₃Aqueous solution and NaBH₄The volume ratio of aqueous solution is 1:1.1；

(2) La is configured₂O₃、Ce₂O₃Suspension, and be added dropwise in the Nano silver solution of step (1), shading is stood 10min, then 10min is exposed under simulated solar light source, it stands, removes supernatant liquor；Wherein, La₂O₃、Ce₂O₃And AgNO₃Rub You are than being 1:0.4:5；

(3) boric acid and ammonium hexa-fluorotitanate mixed solution are configured, the sediment of step (2) is added, reacts 1.5h, stands, goes Fall supernatant liquor；Wherein, the molar ratio of boric acid and ammonium hexa-fluorotitanate is 5：1；Ammonium hexa-fluorotitanate and AgNO₃Molar ratio be 4：1；

(4) step (3) product is dried, and is heated up with 5 DEG C/min rates, at 400 DEG C of temperature annealing 50min to get.

Embodiment 3-2

For the modified Nano crystalline substance TiO2 films of dye-sensitized film solar cell, the modified Nano crystalline substance TiO2 films For nano silver and La co-doped nano crystalline substances TiO₂Film, preparation method includes the following steps：

(1) in ice-water bath, stirring is simultaneously by 1.0 × 10^-3The AgNO of mol/L₃Aqueous solution is added dropwise 2.0 × 10^-3mol/L NaBH₄To get Nano silver solution in aqueous solution；Wherein, AgNO₃Aqueous solution and NaBH₄The volume ratio of aqueous solution is 1:1；

(2) La is configured₂O₃、Ce₂O₃Suspension, and be added dropwise in the Nano silver solution of step (1), shading is stood 10min, then 10min is exposed under simulated solar light source, it stands, removes supernatant liquor；Wherein, La₂O₃、Ce₂O₃And AgNO₃Rub You are than being 1:0.3:4；

(3) boric acid and ammonium hexa-fluorotitanate mixed solution are configured, the sediment of step (2) is added, reacts 1h, stands, removes Supernatant liquor；Wherein, the molar ratio of boric acid and ammonium hexa-fluorotitanate is 6：1；Ammonium hexa-fluorotitanate and AgNO₃Molar ratio be 5：1；

(4) step (3) product is dried, and is heated up with 5 DEG C/min rates, at 400 DEG C of temperature annealing 40min to get.

Embodiment 3-3

For the modified Nano crystalline substance TiO2 films of dye-sensitized film solar cell, the modified Nano crystalline substance TiO2 films For nano silver and La co-doped nano crystalline substances TiO₂Film, preparation method includes the following steps：

(1) in ice-water bath, stirring is simultaneously by 1.0 × 10^-3The AgNO of mol/L₃Aqueous solution is added dropwise 2.0 × 10^-3mol/L NaBH₄To get Nano silver solution in aqueous solution；Wherein, AgNO₃Aqueous solution and NaBH₄The volume ratio of aqueous solution is 1:1.2；

(2) La is configured₂O₃、Ce₂O₃Suspension, and be added dropwise in the Nano silver solution of step (1), shading is stood 10min, then 10min is exposed under simulated solar light source, it stands, removes supernatant liquor；Wherein, La₂O₃、Ce₂O₃And AgNO₃Rub You are than being 1:0.5:6；

(3) boric acid and ammonium hexa-fluorotitanate mixed solution are configured, the sediment of step (2) is added, reacts 2h, stands, removes Supernatant liquor；Wherein, the molar ratio of boric acid and ammonium hexa-fluorotitanate is 4：1；Ammonium hexa-fluorotitanate and AgNO₃Molar ratio be 3：1；

(4) step (3) product is dried, and is heated up with 5 DEG C/min rates, at 400 DEG C of temperature annealing 60min to get.

Embodiment 4-1

For the polymer dielectric of dye sensitization of solar hull cell, the polymer dielectric includes porous polymeric Object and the lithium salts being filled in porous polymer；

The porous polymer is the polymer of benzyl chloride and bis- (methoxy) biphenyl of 4,4`-；The benzyl chloride with The preparation method of the polymer of 4,4`- bis- (methoxy) biphenyl, includes the following steps：Under nitrogen protection, by molar ratio 1.5：1：3 benzyl chloride, bis- (methoxy) biphenyl of 4,4`-, ferric trichloride are added in organic solvent, stir evenly, room temperature React 11h, it is cooling, be filtered, washed, dry to get；

The lithium salts is LiClO₄。

Embodiment 4-2

For the polymer dielectric of dye sensitization of solar hull cell, the polymer dielectric includes porous polymeric Object and the lithium salts being filled in porous polymer；

The porous polymer is the polymer of benzyl chloride and bis- (methoxy) biphenyl of 4,4`-；The benzyl chloride with The preparation method of the polymer of 4,4`- bis- (methoxy) biphenyl, includes the following steps：Under nitrogen protection, by molar ratio 1： 1：4 benzyl chloride, bis- (methoxy) biphenyl of 4,4`-, ferric trichloride are added in organic solvent, stir evenly, and react at room temperature 12h, it is cooling, be filtered, washed, dry to get；

The lithium salts is LiClO₄。

Embodiment 4-3

For the polymer dielectric of dye sensitization of solar hull cell, the polymer dielectric includes porous polymeric Object and the lithium salts being filled in porous polymer；

The porous polymer is the polymer of benzyl chloride and bis- (methoxy) biphenyl of 4,4`-；The benzyl chloride with The preparation method of the polymer of 4,4`- bis- (methoxy) biphenyl, includes the following steps：Under nitrogen protection, by molar ratio 2： 1：2 benzyl chloride, bis- (methoxy) biphenyl of 4,4`-, ferric trichloride are added in organic solvent, stir evenly, and react at room temperature 10h, it is cooling, be filtered, washed, dry to get；

The lithium salts is LiClO₄。

Embodiment 5

Using the raw material of embodiment 1 to 4, a collection of dye-sensitized film solar cell is prepared, includes successively from bottom to top：

(1) vacuum glass layer；

(2) conductive glass layer；

(3) the nanocrystalline TiO of dye sensitizing agent is adsorbed₂Film layer；

(4) electrolyte layer；

(5) to electrode layer.

Raw material sources and in 100mW/cm²Cell photoelectric transfer efficiency see the table below.

Remaining raw material is commercially available.

Claims (9)

1. a kind of novel polymer electrolyte for dye sensitization of solar hull cell, it is characterised in that：The polymer Electrolyte layer includes porous polymer and the lithium salts that is filled in porous polymer；The porous polymer be benzyl chloride and 4, The polymer of bis- (methoxy) biphenyl of 4`-；The lithium salts is LiClO₄。

2. a kind of novel polymer electrolyte for dye sensitization of solar hull cell according to claim 1, It is characterized in that：The benzyl chloride and 4, the preparation method of the polymer of bis- (methoxy) biphenyl of 4`-, includes the following steps： Under nitrogen protection, by molar ratio (1-2)：1：Bis- (methoxy) biphenyl of benzyl chloride, 4,4`-, the ferric trichloride of (2-4) are added In organic solvent, stir evenly, react at room temperature 10-12h, it is cooling, be filtered, washed, dry to get.

3. a kind of dye-sensitized film solar cell, it is characterised in that：Include successively from bottom to top：

(1) vacuum glass layer；

(2) conductive glass layer；

(3) the nanocrystalline TiO2 film layers of dye sensitizing agent are adsorbed；

(4) electrolyte layer；Filling claim 1 to 2 any one of them is used for dye sensitization of solar in the electrolyte layer The polymer dielectric of hull cell；

(5) to electrode layer.

4. a kind of dye-sensitized film solar cell according to claim 3, it is characterised in that：The nanocrystalline TiO₂ Film layer is the nanocrystalline TiO of modification₂Film, the nanocrystalline TiO of the modification₂Film is nano silver, La, Ce co-doped nano Brilliant TiO₂Film.

5. a kind of dye-sensitized film solar cell according to claim 4, it is characterised in that：The nano silver, La, Ce codope co-doped nano crystalline substances TiO₂The preparation method of film is：

(1) in ice-water bath, stirring is simultaneously by 1.0 × 10^-3The AgNO of mol/L₃Aqueous solution is added dropwise 2.0 × 10^-3mol/L NaBH₄To get Nano silver solution in aqueous solution；

(2) La is configured₂O₃、Ce₂O₃Suspension, and be added dropwise in the Nano silver solution of step (1), shading standing 10min, then 5-10min is exposed under simulated solar light source, is stood, is removed supernatant liquor；

(3) boric acid and ammonium hexa-fluorotitanate mixed solution are configured, the sediment of step (2) is added, reacts 1-2h, is stood, remove on Layer clear liquid；

(4) step (3) product is dried, and is heated up with 5 DEG C/min rates, at 400 DEG C of temperature annealing 40-60min to get.

6. a kind of dye-sensitized film solar cell according to claim 5, it is characterised in that：In step (1), AgNO₃ Aqueous solution and NaBH₄The volume ratio of aqueous solution is 1:(1-1.2).

7. a kind of dye-sensitized film solar cell according to claim 5, it is characterised in that：In step (2), La₂O₃、Ce₂O₃And AgNO₃Molar ratio be 1:(0.3-0.5):(4-6).

8. a kind of dye-sensitized film solar cell according to claim 5, it is characterised in that：In step (3), boric acid Molar ratio with ammonium hexa-fluorotitanate is that the molar ratio of boric acid and ammonium hexa-fluorotitanate is (4-6)：1；Ammonium hexa-fluorotitanate and AgNO₃Rub You are than being (3-5)：1.

9. a kind of dye-sensitized film solar cell according to claim 3, it is characterised in that：The dye sensitizing agent For dye sensitizing agent shown in formula (I) or it is double-core dye sensitizing agent shown in formula (IV)：