CN102190680A - Silicon-containing thiophene organic photoelectric material and preparation method and application thereof - Google Patents

Abstract

The invention relates to the technical field of organic materials, and provides a silicon-containing thiophene organic photoelectric material, which comprises compounds shown as a structural formula (1). In the formula, R1, R2, R3 and R4 are same or different, and refer to H or C1-C20 alkyl; and m and n are same or different and refer to an integer from 0 to 10. The invention also provides a manufacturing method for the silicon-containing thiophene organic photoelectric material and application of the silicon-containing thiophene organic photoelectric material. The silicon-containing thiophene organic photoelectric material has thiophene ring and cyan, so the silicon-containing thiophene organic photoelectric material has wider spectral response and higher thermal stability and environmental stability. The manufacturing method for the condensed ring thiophene organic photoelectric material has the advantages of simple synthetic route, low manufacturing cost and wide application prospect.

Description

Siliceous thiophene organic photoelectrical material, its manufacture method and application

Technical field

The invention belongs to the organic materials technical field, be specifically related to a kind of siliceous thiophene organic photoelectrical material, its manufacture method and application thereof.

Background technology

Current world economy mainly is to be based upon with fossil energy, as the economy on the bases such as coal, oil and natural gas.Yet these non-renewable fossil energies are all in continuous exhaustion.Entered since 21 century, problems such as global energy problem and consequent environmental pollution and climate warming show especially and aggravation gradually day by day.Because sun power has and distributes generally and wide, resource quantity is many, and is pollution-free, cleaning, and safety and obtain outstanding advantages such as convenient is considered to one of most promising renewable energy source.Solar cell directly changes into electric energy to solar energy, is to utilize the practicable effective ways of sun power.Yet present commercial solar cell also is confined to inorganic solar cell such as silica-based, but their price is too expensive, has exceeded the general acceptable degree of present people, and this has limited their use range greatly.In order to reduce the battery cost, expand range of application, for a long time, people are seeking novel solar cell material always.

Organic solar batteries is a kind of novel solar cell, limited with respect to inorganic semiconductor material source, cost an arm and a leg, poisonous, complicated process of preparation, cost too high for, it has some incomparable advantages of inorganic solar cell, as material source extensively, but simple, the light large area flexible of product weight of structure diversity and Modulatory character, with low cost, safety and environmental protection, manufacture craft prepares or the like, can be widely used in multiple fields such as building, illumination and generating, have important development and application prospect.Therefore, the research institution of lot of domestic and foreign and enterprise etc. have all given suitable concern and input.Yet up to the present, the photoelectric transformation efficiency of organic solar batteries still is much lower than inorganic solar cell.Therefore, the organic photoelectrical material of development of new is significant for the efficient that improves organic solar batteries and other semiconducter device.

Summary of the invention

In view of this, provide that a kind of spectral response is wide, the siliceous thiophene organic photoelectrical material of good stability, and the siliceous thiophene organic photoelectrical material manufacture method that a kind of synthetic route is simple, cost is low.

The embodiment of the invention also provides the application of above-mentioned siliceous thiophene organic photoelectrical material in making solar cell device, organic field effect tube, organic electroluminescence device, organic light storage device, organic non-linear optical properties or organic laser apparatus.

A kind of siliceous thiophene organic photoelectrical material, it comprises the compound of following structural formula (1) expression:

In the formula: R ₁, R ₂, R ₃, R ₄Be identical or different H or the C of being expressed as ₁-C ₂₀Alkyl; M, n are the identical or different integers that is expressed as between the 0-10.

A kind of siliceous thiophene organic photoelectrical material manufacture method, it comprises the steps:

The compd A, B, C and the propane dinitrile that provide following structural formula to represent respectively,

In the formula: R ₁, R ₂, R ₃, R ₄Be identical or different H or the C of being expressed as ₁-C ₂₀Alkyl; M, n are the identical or different integers that is expressed as between the 0-10, and An is C ₁-C ₄Alkyl;

Under the condition of catalyzer and solvent, compd A and B are carried out condensation reaction or compd A and B and Compound C are carried out the Stille coupling reaction with propane dinitrile respectively;

Under the condition of catalyzer and solvent, the product of condensation reaction and Compound C are carried out the Stille coupling reaction or the product and the propane dinitrile of Stille coupling reaction carried out condensation reaction, obtain the compound of following structural formula (1) expression:

And, the application of above-mentioned siliceous thiophene organic photoelectrical material in making solar cell device, organic field effect tube, organic electroluminescence device, organic light storage device, organic non-linear optical properties or organic laser apparatus.

In above-mentioned siliceous thiophene organic photoelectrical material, it has a plurality of thiphene ring structures, because thiphene ring is a five-membered ring structure, meets shock youngster rule, has moderate band gap, the spectral response of broad, thermostability and environmental stability preferably.And owing to have two pairs of cyano group in the above-mentioned siliceous thiophene organic photoelectrical material, cyano group is electron-withdrawing group, can further widen the spectral response range of material, and can improve the photoelectric properties of material.Further, the siliceous thiophene unit in the material not only has above-mentioned similar effect, and two thiphene ring are on same plane, and this structure can effectively increase the conjugation performance of molecule, reduces the energy gap of material, enlarges the absorption region to sunlight.In above-mentioned siliceous thiophene organic photoelectrical material manufacture method, adopt better simply synthetic route, thereby reduce manufacturing cost.When above-mentioned siliceous thiophene organic photoelectrical material is applied in solar cell device, organic field effect tube, organic electroluminescence device, organic light storage device, organic non-linear optical properties or the organic laser apparatus, can improve its photoelectricity or semi-conductor correlated performance, and can alleviate the quality of device, and be convenient to large batch of preparation.

Description of drawings

The invention will be further described below in conjunction with drawings and Examples, in the accompanying drawing:

Fig. 1 is the siliceous thiophene organic photoelectrical material manufacture method schema of the embodiment of the invention;

Fig. 2 is the solar cell device structural representation that adopts the siliceous thiophene organic photoelectrical material of the embodiment of the invention.

Fig. 3 is the structural representation of organic electroluminescence device that adopts the siliceous thiophene organic photoelectrical material of the embodiment of the invention.

Fig. 4 is the structural representation of organic field effect tube that adopts the siliceous thiophene organic photoelectrical material of the embodiment of the invention.

Embodiment

In order to make purpose of the present invention, technical scheme and advantage clearer,, the present invention is further elaborated below in conjunction with drawings and Examples.Should be appreciated that specific embodiment described herein only in order to explanation the present invention, and be not used in qualification the present invention.

The embodiment of the invention provides a kind of siliceous thiophene organic photoelectrical material compound, and it comprises the compound of following structural formula (1) expression:

In the formula: R ₁, R ₂, R ₃, R ₄Be identical or different H or the C of being expressed as ₁-C ₂₀Alkyl; M, n are the identical or different integers that is expressed as between the 0-10.

In a preferred embodiment of the invention, siliceous thiophene organic photoelectrical material has symmetric molecular structure, and m, n are the identical integer that is expressed as between the 0-10, i.e. m=n.In another embodiment of the present invention, m=n=0 or 1, at this moment, this siliceous thiophene organic photoelectrical material molecular weight is less, and the quality product of making is lighter.In a preferred embodiment of the present invention, R ₁And R ₂Be identical straight chained alkyl, for example be straight chained alkyl, be hexyl with 6 carbon atoms.R ₃, R ₄Be the identical C that is expressed as ₈-C ₁₈Alkyl, for example be alkyl, for example 2-ethyl-hexyl with 8 carbon atoms.

Above-mentioned siliceous thiophene organic photoelectrical material comprises a plurality of thiphene ring, has moderate band gap, the spectral response of broad, wave band is greatly about 300-700nm, substantially contain visible light wave range, also have thermostability and environmental stability preferably, show photoelectric properties preferably.And, by introducing strong electron-withdrawing group group (as cyano group) in molecule 3-position, help and electron-donating group (as thiophene unit) between form electron donor(ED)-acceptor interaction, make the absorbing wavelength red shift, enlarge light abstraction width, improve absorption rate sunlight.Further, material has the siliceous thiophene unit of condensed ring, not only has above-mentioned similar effect, and two thiphene ring are on same plane, and this structure can effectively increase the conjugation performance of molecule, reduces the energy gap of material, enlarges the absorption region to sunlight.

In the siliceous thiophene organic photoelectrical material of present embodiment, R ₁, R ₂, R ₃, R ₄Be preferably alkyl chain, for example C ₆Or C ₆Above alkyl chain by introducing alkyl chain to improve the solubility property of material, helps film forming processing, enlarges its range of application.

See also Fig. 1, the manufacture method of above-mentioned siliceous thiophene organic photoelectrical material comprises the steps:

S10: the compd A, B, C and the propane dinitrile that provide following structural formula to represent respectively,

In the formula: R ₁, R ₂, R ₃, R ₄Be identical or different H or the C of being expressed as ₁-C ₂₀Alkyl; M, n are the identical or different integers that is expressed as between the 0-10, and An is C ₁-C ₄Alkyl;

S20: under the condition of catalyzer and solvent, compd A and B are carried out condensation reaction or compd A and B and Compound C are carried out the Stille coupling reaction with propane dinitrile respectively;

S30: under the condition of catalyzer and solvent, the product of condensation reaction and Compound C are carried out the Stille coupling reaction or the product and the propane dinitrile of Stille coupling reaction carried out condensation reaction, obtain the compound of following structural formula (1) expression:

In step S10, compd A, B, C and propane dinitrile can directly be buied from the market or by existing synthetic method preparation, be not described in detail in this.Wherein, each group among compound A, B, the C and top description to siliceous thiophene organic photoelectrical material are basic identical, do not repeat them here.

In step S20 and S30, different according to condensation reaction with the order that the Stille coupling reaction successively carries out, can be divided into two kinds of possibilities and realize.First kind of scheme is: under the condition of catalyzer and solvent, compd A and B are carried out condensation reaction earlier with propane dinitrile respectively, make aldehyde radical among compd A and the B respectively by second dicyano vinyl substituted.Then, under the condition of catalyzer and solvent, the product that condensation reaction generates carries out the Stille coupling reaction with Compound C again, obtains described siliceous thiophene organic photoelectrical material.Second kind of scheme is: under the condition of catalyzer and solvent, compd A and B are carried out the Stille coupling reaction with Compound C earlier, generation has many thiophene of dialdehyde-based, again many thiophene and propane dinitrile are carried out condensation reaction, make dialdehyde-based on many thiophene respectively by second dicyano vinyl substituted, obtain described siliceous thiophene organic photoelectrical material.The molar ratio of each reactant can be 1: 1 or other reaction ratio, can carry out the following reaction of present embodiment, and do not influence the reaction carry out.Below be introduced respectively.

First kind of scheme comprises the steps:

Step I: carry out condensation reaction, under the condition of catalyzer and solvent, compd A and B are carried out condensation reaction with propane dinitrile respectively, make aldehyde radical among compd A and the B respectively by second dicyano vinyl substituted, form compd A ' and B ' respectively, reaction process is shown below:

Particularly, the catalyzer of step I is pyridine or triethylamine, is preferably pyridine; Solvent is ethanol, methyl alcohol, methylene dichloride, trichloromethane, tetrahydrofuran (THF), ethyl acetate, DMF, toluene or acetone, is preferably ethanol.Wherein, the reaction times is for spending the night, for example 12-14 hour.In addition, after reaction is finished, purify again, be specially: after washing for several times with saturated sodium-chloride water solution reaction product, extract and drying, after filtering filtrate collection is revolved steaming, and then carry out silica gel column chromatography and separate, obtain purified product.Wherein, extraction agent can adopt ethyl acetate, and siccative can adopt anhydrous magnesium sulfate, and silica gel column chromatography can be at sherwood oil: ethyl acetate is to carry out under the condition of leacheate.In step I, the reacting weight of propane dinitrile is preferably the excessive 30%-70% of total amount (by mole percentage ratio) of relative compd A and B.

Step I i: under the condition of catalyzer and solvent, the compd A that step I is formed ' and B ' carry out the Stille coupling reaction with Compound C, obtain siliceous thiophene organic photoelectrical material, reaction is shown below:

Particularly, the catalyzer of step I i can be organic palladium catalyzer, for example Pd ₂(dba) ₃/ P (o-Tol) ₃, Pd (PPh ₃) ₄Or Pd (PPh ₃) ₂Cl ₂, be preferably Pd ₂(dba) ₃/ P (o-Tol) ₃Solvent can be tetrahydrofuran (THF), methylene dichloride, glycol dimethyl ether, benzene or toluene, is preferably tetrahydrofuran (THF).In step I i, compd A ' with the reacting weight of B ' can be identical molar weight, is preferably the excessive 5%-20% of molar weight (by mole percentage ratio) of relative Compound C.

After reaction finishes, purify again, be specially: reaction product is returned to room temperature, add KF solution, stirred for several minute, add saturated sodium-chloride water solution, extract again and drying, after filtering filtrate collection is revolved steaming, carry out post precipitation twice with normal hexane and ethanol, filter gained crude product recycle silicon plastic column chromatography and separate, obtain purified product.Wherein, extraction agent can adopt ethyl acetate, and siccative can adopt anhydrous magnesium sulfate, and silica gel column chromatography can be at sherwood oil: methylene dichloride is to carry out under the condition of leacheate.At compd A ' and B ' when carrying out the Stille coupling reaction with Compound C, when m ≠ n, in theory compd A ' and B ' self can and Compound C the Stille coupling reaction takes place, form respectively and have (2m+4) and (2n+4) compound of individual thiphene ring, at this moment, the productive rate that obtains the purpose product in the above-mentioned reaction formula is lower, can obtain product in the pure structural formula by above-mentioned purification step.Be understandable that at this moment, (2m+4) and (2n+4) compound of individual thiphene ring can be purified out equally,, belong to the row of the protection structure of the present invention's design as siliceous thiophene organic photoelectrical material.When m=n, compd A ' identical with B ', the productive rate of product is higher, about more than 70%.

Second kind of scheme comprises the steps:

Step I ': compd A and B and Compound C are carried out the Stille coupling reaction, generate the many thiophene with dialdehyde-based, reaction process is shown below:

Particularly, the step I of this second kind of scheme ' reaction conditions and reaction conditions and the process of the step I i of first kind of scheme basic identical, this step I ' productive rate is also basic identical with step I i situation, does not repeat them here.

Step I i ': the many thiophene with dialdehyde-based and the propane dinitrile of step I ' formation are carried out condensation reaction, make dialdehyde-based on many thiophene respectively by second dicyano vinyl substituted, obtain above-mentioned siliceous thiophene organic photoelectrical material, reaction process is shown below:

Particularly, the reaction conditions and the process of the step I of the reaction conditions of the step I i ' of second kind of scheme and first kind of scheme are basic identical, do not repeat them here.

In the preparation method of above-mentioned siliceous thiophene organic photoelectrical material, compd A, three kinds of monomeric synthetic routes of B, C are fairly simple and ripe, thereby reduce technical process, reduce manufacturing cost.And the Stille coupling reaction is a kind of sophisticated coupling reaction, and productive rate height, mild condition are easy to control, and easily by introducing the solvability that alkyl improves product.

The siliceous thiophene organic photoelectrical material of present embodiment can be applicable in various photoelectricity or the semiconducter device, for example, can be used for solar cell device, organic field effect tube, organic electroluminescence device, organic light storage device, organic non-linear optical properties and organic laser apparatus etc.With solar cell device, organic field effect tube, organic electroluminescence device is that example describes below.Other is as organic light storage device, and organic non-linear optical properties and organic laser apparatus and following similar all are with the siliceous thiophene organic photoelectrical material of present embodiment optical memory material, nonlinear material, laserable material or the semiconductor material etc. as it.

See also Fig. 2, show the solar cell device that adopts the siliceous thiophene organic photoelectrical material in the foregoing description, it comprises glass-base 11, transparent anode 12, middle supplementary layer 13, active coating 14, the negative electrode 15 that stacks gradually, middle supplementary layer 13 adopts polyethylene dioxy base thiophene: polystyrene-sulfonic acid matrix material (abbreviating PEDOT:PSS as), active coating 14 comprises electron donor material and electron acceptor material, electron donor material adopts above-mentioned siliceous thiophene organic photoelectrical material, electron acceptor material can be [6,6] phenyl-C ₆₁-methyl-butyrate (abbreviating PCBM as).Transparent anode 12 can adopt tin indium oxide (abbreviating ITO as), is preferably the tin indium oxide that square resistance is 10-20 Ω/.Negative electrode 15 can adopt the aluminium electrode, but is not limited thereto.Wherein, glass-base 11 can be used as bottom, during making, earlier with the ITO electrodeposition in glass-base 11, (treatment process of oxygen-Plasma) is formed at middle supplementary layer 13 on the ITO electrode to use oxygen-plasma spraying again, and in the middle of siliceous thiophene organic photoelectrical material and electron acceptor material be deposited on by vacuum evaporation technology on the supplementary layer 13, form active coating 14, and then, obtain above-mentioned solar cell device by vacuum evaporation technology deposition cathode 15 on active coating 14.

As shown in the figure, under illumination, light transmission glass-base 11 and ITO electrode 12, the siliceous thiophene organic photoelectrical material in the active coating 14 absorbs luminous energy, and produces exciton, these excitons are moved to electron donor(ED)/acceptor material at the interface again, and give electron acceptor material with transfer transport, as PCBM, realize the separation of electric charge, thereby form current carrier freely, i.e. electronics and hole freely.These freely electronics along electron acceptor material to metallic cathode transmission and collected by negative electrode, freely the hole along electron donor material to ito anode transmission and collected by anode, thereby form photoelectric current and photovoltage, realize opto-electronic conversion, during external load 16, can power to it.In this process, siliceous thiophene organic photoelectrical material can utilize luminous energy more fully because it has very wide spectral response range, to obtain higher photoelectric transformation efficiency, increases the electricity generation ability of solar cell device.And this organic materials can also alleviate the quality of solar cell device, and can make by technology such as vacuum evaporations, is convenient to large batch of preparation.

See also Fig. 3, show the organic electroluminescence device that adopts the siliceous thiophene organic photoelectrical material in the foregoing description, it comprises glass-base 21, transparent anode 22, luminescent layer 23, buffer layer 24, the negative electrode 25 that is cascading.Transparent anode 22 can adopt tin indium oxide (abbreviating ITO as), is preferably the tin indium oxide that square resistance is 10-20 Ω/.Luminescent layer 23 comprises the siliceous thiophene organic photoelectrical material in the foregoing description.Buffer layer 24 can adopt LiF etc., but is not limited thereto.Negative electrode 25 can be but be not limited to metal A l or Ca, Ba etc., but be not limited thereto.Thereby in a specific embodiment, the organic electroluminescence device structural table is shown: the siliceous thiophene organic photoelectrical material/LiF/Al of ITO/.Each layer can adopt existing method to form, and siliceous thiophene organic photoelectrical material can be formed on the ITO by vacuum evaporation technology.

See also Fig. 4, show to adopt the organic field effect tube of the siliceous thiophene organic photoelectrical material in the foregoing description, it comprises substrate 31, insulation layer 32, decorative layer 33, the organic semiconductor layer 34 that is cascading and is located at source electrode 35 and drain electrode 36 on the organic semiconductor layer 34.Wherein, substrate 31 can be but be not limited to highly doped silicon chip (Si) that insulation layer 32 can be but be not limited to micro-nano (as 450nm) thick SiO ₂Organic semiconductor layer 34 adopts the siliceous thiophene organic photoelectrical material of foregoing description.Source electrode 35 and drain electrode 36 all can adopt but be not limited to gold.Decorative layer 33 can be but be not limited to the octadecyl trichlorosilane.Substrate 31, insulation layer 32, decorative layer 33 and source electrode 35 and drain electrode 36 all can adopt existing method to form.Organic semiconductor layer 34 can be near 10 in vacuum tightness ^-4Under the Pa, with the siliceous thiophene organic photoelectrical material evaporation in the foregoing description on the insulation layer of modifying by decorative layer 33 32.

Below by specific embodiment illustrate siliceous thiophene organic photoelectrical material preparation method with and aspect such as performance.Below the raw material used of each embodiment can adopt existing synthetic method preparation, for example, raw material 5-bromo-5 '-hexyl-2,2 '-di-thiophene-4-formaldehyde is by 5 '-hexyl-2,2 '-di-thiophene-4-formaldehyde is bromination (reference: " polymer chemistry physics " (Macromol.Chem.Phys.) under the NBS condition, 2001,202,2074); 5 '-hexyl-2,2 '-di-thiophene-4-formaldehyde by 5-bromothiophene-3-formaldehyde and 2-hexyl-5-tributyltin chloride thiophene at Pd ₂(dba) ₃/ P (o-Tol) ₃Catalytic condition obtain down (reference: " American Chemical Society can will " (J.Am.Chem.Soc.), 1998,120,5355); 4,4 '-two (2-ethyl-hexyl)-5,5 '-two (tin trimethyl)-two thiophene [3,2-b:2 ', 3 '-d] thiophene coughs up by 4,4 '-two (2-ethyl-hexyl)-5,5 '-two bromo-two thiophene [3,2-b:2 ', 3 '-d] thiophene coughs up with trimethyltin chloride reaction and makes (reference: " American Chemical Society can will " (J.Am.Chem.Soc.), 2008,130 (48), 16144).

Embodiment 1

The siliceous thiophene organic photoelectrical material of present embodiment 1 is with R ₁And R ₂Adopt hexyl, R ₃, R ₄Adopting 2-ethyl-hexyl is example, and its structural formula is as follows:

By this structural formula as can be known, the siliceous thiophene organic photoelectrical material of present embodiment 1 has symmetrical structure, have six thiphene ring and two pairs of cyano group, cyano group is as electron-withdrawing group, by this kind structure symmetrically, make siliceous thiophene organic photoelectrical material have photo absorption performance and photoelectric properties etc. preferably relatively.

This preparation method who joins six thiophene adopts the concrete operations of first kind of scheme as follows:

1) preparation 2-((2-bromo-5-(5-hexyl thiophene-2-yl) thiene-3-yl-) methylene radical) propane dinitrile, its structural formula is as follows:

Because, the siliceous thiophene organic photoelectrical material of present embodiment 1 has symmetrical structure, therefore, the compd A in this step is identical with the B structure, and the product of generation is also identical, it is compd A ' identical with B ' structure, only need carry out a step 1) thus and get final product, simplify preparation technology and reduced cost, if siliceous thiophene organic photoelectrical material is not a symmetrical structure, compd A is different with the B structure so, then needs different raw materials is carried out step 1).

Its concrete preparation process is: add ethanol (50.0mL), 5-bromo-5 '-hexyl-2 successively, 2 '-di-thiophene-4-formaldehyde (1.07g, 3.00mmol) and propane dinitrile (0.34g, 5.00mmol), reflux.Add 3 pyridines fast, reacted 12 hours.After saturated sodium-chloride water solution washing for several times, ethyl acetate extraction, anhydrous magnesium sulfate drying revolves steaming with filtrate collection after filtering.With petrol ether/ethyl acetate is that leacheate carries out the silica gel column chromatography separation, obtains solid product, and productive rate is 65%.

Test result is: MALDI-TOF-MS (m/z): 405.4 (M ⁺)

2) the siliceous thiophene organic photoelectrical material of preparation present embodiment, its structural formula is as implied above.

Concrete preparation process is: 40mL THF (tetrahydrofuran (THF)) is added in the pressure piping, add 2-((2-bromo-5-(5-hexyl thiophene-2-yl) thiene-3-yl-) methylene radical) propane dinitrile (0.89g fast, 2.20mmol) and 4,4 '-two (2-ethyl-hexyl)-5,5 '-two (tin trimethyl)-two thiophene [3,2-b:2 ', 3 '-d] thiophene coughs up (0.74g, 1.00mmol), nitrogen passed to liquid level following 20 minutes, added Pd then ₂(dba) ₃(0.0184g, 0.020mol) and P (o-Tol) ₃(0.0122g, 0.040mmol), nitrogen passes to the following deoxygenation of liquid level 20 minutes, and capping is warming up to 80 ℃, reacts 13 hours.Reaction returns to room temperature after finishing, and adding KF (15.0mL, 1.00M) solution stirred 10 minutes, added saturated sodium-chloride water solution, ethyl acetate extraction, and anhydrous magnesium sulfate drying revolves steaming with filtrate collection after filtering.Use normal hexane and ethanol sedimentation respectively, the gained crude product is that leacheate carries out the silica gel column chromatography separation with sherwood oil/methylene dichloride again, obtains solid product, and productive rate is 71%.

Test result is: MALDI-TOF-MS (m/z): 1067.6 (M ⁺).

Embodiment 2

The siliceous thiophene organic photoelectrical material of present embodiment is identical with embodiment 1, but adopts second kind to prepare scheme, and is specific as follows:

1) preparation 2-(2-(3-formyl radical-5-(5-hexyl thiophene-2-yl) thiophene-2-yl)-4; 4 '-two (2-ethyl-hexyl)-two thiophene [3; 2-b:2 ', 3 '-d] thiophene coughs up-the 5-yl)-5-(5-hexyl thiophene-2-yl) thiophene-3-formaldehyde, its structural formula is as follows:

Concrete preparation process is: 40mL THF is added in the pressure piping, add 5-bromo-5 '-hexyl-2 fast, (0.43g is 1.20mmol) with 4,4 '-two (2-ethyl-hexyls)-5 for 2 '-di-thiophene-4-formaldehyde, 5 '-two (tin trimethyl)-two thiophene [3,2-b:2 ', 3 '-d] thiophene cough up (0.74g, 1.00mmol), nitrogen passed to liquid level following 20 minutes, added Pd then ₂(dba) ₃(0.0230g, 0.025mmol) and P (o-Tol) ₃(0.0152g, 0.050mmol), nitrogen passed to liquid level following 20 minutes, and capping is warming up to 80 ℃, reacts 14 hours.Reaction returns to room temperature after finishing, and adding KF (15.0mL, 1.00M) solution stirred 20 minutes, added saturated sodium-chloride water solution, ethyl acetate extraction, and anhydrous magnesium sulfate drying revolves steaming with filtrate collection after filtering.With sherwood oil/methylene dichloride is that leacheate carries out the silica gel column chromatography separation, obtains solid product, and productive rate is 53%.

Test result is: MALDI-TOF-MS (m/z): 971.7 (M ⁺).

2) the connection six thiophene final products of preparation present embodiment; concrete preparation process is: add ethanol (40.0mL), 2-(2-(3-formyl radical-5-(5-hexyl thiophene-2-yl) thiophene-2-yl)-4 successively; 4 '-two (2-ethyl-hexyl)-two thiophene [3; 2-b:2 '; 3 '-d] thiophene coughs up-the 5-yl)-5-(5-hexyl thiophene-2-yl) thiophene-3-formaldehyde (0.97g; 1.00mmol) and propane dinitrile (0.13g, 2.00mmol), reflux.Add 4 pyridines fast, reacted 12 hours.After saturated sodium-chloride water solution washing for several times, ethyl acetate extraction, anhydrous magnesium sulfate drying revolves steaming with filtrate collection after filtering.Use normal hexane and ethanol sedimentation respectively, the gained crude product is that leacheate carries out the silica gel column chromatography separation with sherwood oil/methylene dichloride again, obtains solid product, and productive rate is 75%.

Test result is: MALDI-TOF-MS (m/z): 1067.5 (M ⁺).

As from the foregoing, in above-mentioned siliceous thiophene organic photoelectrical material, it has a plurality of thiphene ring structures, because thiphene ring is a five-membered ring structure, meets shock youngster rule, has moderate band gap, the spectral response of broad, thermostability and environmental stability preferably.And owing to have two pairs of cyano group in the above-mentioned siliceous thiophene organic photoelectrical material, cyano group is electron-withdrawing group, can further widen the spectral response range of material, and can improve the photoelectric properties of material.In above-mentioned siliceous thiophene organic photoelectrical material manufacture method, adopt better simply synthetic route, thereby reduce manufacturing cost.Solar cell device can not only improve its photoelectric transformation efficiency by having adopted siliceous thiophene organic photoelectrical material, and can alleviate the quality of solar cell device, and is convenient to large batch of preparation.

In addition, in above-mentioned siliceous thiophene organic photoelectrical material, siliceous thiophene unit had both had the thiophthene ring structure, also had heterocycle structure, also was a five-membered ring structure, had the function and the effect of similar thiphene ring.And two thiphene ring are on same plane, and this structure can effectively increase the conjugation performance of molecule, reduce the energy gap of material, enlarge the absorption region to sunlight, improve the absorption rate to sunlight.

The above only is preferred embodiment of the present invention, not in order to restriction the present invention, all any modifications of being done within the spirit and principles in the present invention, is equal to and replaces and improvement etc., all should be included within protection scope of the present invention.

Claims (10)

1. siliceous thiophene organic photoelectrical material, it comprises the compound of following structural formula (1) expression:

In the formula: R ₁, R ₂, R ₃, R ₄Be identical or different H or the C of being expressed as ₁-C ₂₀Alkyl; M, n are the identical or different integers that is expressed as between the 0-10.

2. siliceous thiophene organic photoelectrical material as claimed in claim 1 is characterized in that described R ₁And R ₂Be identical straight chained alkyl.

3. siliceous thiophene organic photoelectrical material as claimed in claim 1 is characterized in that described R ₃And R ₄Be the identical C that is expressed as ₈-C ₁₈Alkyl.

4. siliceous thiophene organic photoelectrical material as claimed in claim 1 is characterized in that, described m, n are the identical integers that is expressed as between the 0-10.

5. siliceous thiophene organic photoelectrical material manufacture method, it comprises the steps:

The compd A, B, C and the propane dinitrile that provide following structural formula to represent respectively,

In the formula: R ₁, R ₂, R ₃, R ₄Be identical or different H or the C of being expressed as ₁-C ₂₀Alkyl; M, n are the identical or different integers that is expressed as between the 0-10, and An is C ₁-C ₄Alkyl;

Under the condition of catalyzer and solvent, compd A and B are carried out condensation reaction or compd A and B and Compound C are carried out the Stille coupling reaction with propane dinitrile respectively;

Under the condition of catalyzer and solvent, the product of condensation reaction and Compound C are carried out the Stille coupling reaction or the product and the propane dinitrile of Stille coupling reaction carried out condensation reaction, obtain the compound of following structural formula (1) expression:

6. siliceous thiophene organic photoelectrical material manufacture method as claimed in claim 5, it is characterized in that, further compd A and B are carried out following purification step with the product that the propane dinitrile condensation reaction generates respectively: after washing for several times with saturated sodium-chloride water solution condensation reaction products, extract and drying, after filtering filtrate collection is revolved steaming, separate with silica gel column chromatography then, obtain purified product.

7. siliceous thiophene organic photoelectrical material manufacture method as claimed in claim 5, it is characterized in that, further the product that the Stille coupling reaction of compd A and B and Compound C is generated carries out following purification step: add KF solution in Stille coupling reaction product, stir, add saturated sodium-chloride water solution, extract and drying, after filtering filtrate collection is revolved steaming, carry out post precipitation twice with normal hexane and ethanol respectively again, filter the gained crude product and separate, obtain purified product with silica gel column chromatography.

8. siliceous thiophene organic photoelectrical material manufacture method as claimed in claim 5, it is characterized in that, the catalyzer that described condensation reaction is adopted is pyridine or triethylamine, and the solvent of employing is ethanol, methyl alcohol, methylene dichloride, trichloromethane, tetrahydrofuran (THF), ethyl acetate, DMF, toluene or acetone.

9. siliceous thiophene organic photoelectrical material manufacture method as claimed in claim 5, it is characterized in that, the catalyzer that described Stille coupling reaction adopts is the organic palladium catalyzer, and the solvent of employing is tetrahydrofuran (THF), methylene dichloride, glycol dimethyl ether, benzene or toluene.

10. as the application of each described siliceous thiophene organic photoelectrical material of claim 1-4 in making solar cell device, organic field effect tube, organic electroluminescence device, organic light storage device, organic non-linear optical properties or organic laser apparatus.

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