CN1600759A - Luminescence oligomer in PPV category of containing biphenyl center - Google Patents

Abstract

A process for syntheszing PPV luminous polymer which contains symbenzene center includes such steps as 1. synthesizing center monomer by inducting multitude functional group structure center substance which contains two or many symbenzene or be similar to A, B, C, D, E, F; the compound is skewness conjugation ring; 2. Selecting and synthesizing side chain monomer; 3. synthesizing the polymer by taking reaction A, B, C, D, E, F with side chain monomer H separately to get polymers of styrene with two or many symbenzene center.

Description

The luminous oligopolymer of PPV class that contains the biphenyl center

Technical field

The present invention relates to a kind of PPV base polymer, particularly a kind of luminous oligopolymer of PPV class that contains the biphenyl center.

Background technology

Pi-conjugated organic polymer is because its wide application prospect aspect electronic conduction, nonlinear optics, electronics and photoelectronics has caused numerous scientists' very big interest.Particularly as luminophore in the application aspect the Organic Light Emitting Diode, obtained very deep research.They have following advantage as the base mateiral of Organic Light Emitting Diode: comparatively simple preparation method; The controllability of glow color.And, not only can provide the microtexture information of corresponding polymeric system, and itself often also can be used as active substance and be used for multiple scientific research for us as the oligopolymer of the model compound of phase emergencing copolymer.Benefit from the determinacy of oligopolymer structure, make that its conjugate length is single distribution, and can change the length of oligopolymer segment according to actual needs, to regulate its conjugate length and glow color.Trimerization phenylene ethylene (TPV) and its derivative are as the model compound of PPV base polymer, obtained people's broad research, what is more important trimerization phenylene ethylene (TPV) itself is exactly a kind of blue excitation material, makes phenylene ethylene class oligopolymer seem particularly important.Yet many advantageous properties (for example fluorescence efficiency is higher than 90%) of trimerization phenylene ethylene (TPV) can only obtain under solution state, and can not obtain in that the solid film state is next.People are owing to intermolecular aggregated forms by the quenching phenomenon of discovering this solid film, particularly intermolecular in harness arrangement mode.Illustrate that intermolecular stacked form is the determinative of this class material physical properties.In order to solve the emission efficiency problem of this class material under solid state, people have done a large amount of adjustment and improvement on the TPV basis, for example: in TPV, introduce various substituted radicals, four TPV are connected on the carbon atom (C ( ^tBuSSB) ₄) and the combination of the ring-type covalency of a plurality of TPV molecules (calyx[4] arene core).Some materials in them (for example C ( ^tBuSSB) ₄) also be used to make device, but its device does not obtain the luminous efficiency close with solid film.Therefore, the continuation of many advantageous properties of trimerization phenylene ethylene (TPV) exploitation, particularly the high blue fluorescent emission efficient under the solid film state is one of important topic of industry.

Summary of the invention

The purpose of this invention is to provide a kind of luminous oligopolymer of PPV class that contains the biphenyl center, synthesize a series of have novel two (many) trimerization phenylene ethylenes and derivatives thereof good blue emission performance, solid state with it; And make blue LED efficiently with it.

The objective of the invention is to realize by following technical scheme.The present invention is the luminous oligopolymer of PPV class that contains the biphenyl center,

It is characterized in that it comprises following making step:

The structure of step 1, center monomer is introduced the polyfunctional group structure centre material type with two or more biphenyl and is similar to A, B, C, D, E, F with synthetic; This compounds is the conjugate ring with certain torsion resistance, for example, and for A:M ₁=M ₂=Br, the actual measurement distortion angle is 71.8 ° of (see figure 1)s:

Wherein, M ₁, M ₂, M ₃, M ₄Can be identical or different group :-PPh ₃Br ,-PO (OC ₂H ₅) ₂Br or-CN

Step 2, the monomeric selection of side chain and synthetic, the side chain monomer is selected H:

Described side chain monomer H is the material that a class contains single aldehyde functional group, wherein R ₁, R ₂, R ₃, R ₄, R ₅(identical or different group) can be hydrogen atom, fluorine atom, phenyl ring, alkoxyl group (C1-C10), alkyl (C1-C10):

Synthesizing of step 3, oligopolymer, with monomer A, B, C, D, E, F react with side chain monomer H respectively, obtain because phenylene ethylene oligopolymer system (1), (2), (3), (4) at two or more biphenyl center:

Represent replacement situation on each end group phenyl ring with following formula: wherein, the former represents the replacement situation of phenylene ethylene oligopolymer system (1), (3), (4); The latter represents the replacement situation of phenylene ethylene oligopolymer system (2);

Phenyl ring in its Chinese style also can be: other aromatic nucleus such as naphthalene nucleus, pyridine

R ₁, R ₂, R ₃, R ₄, R ₅, R ₆(identical or different group) can be: hydrogen atom, fluorine atom, phenyl ring, alkoxyl group (C1-C10), alkyl (C1-C10 straight chain or branch chain), aromatic nucleus, pentanoic;

R (identical group) can be: hydrogen atom, cyano group are (CN);

X, Y, Z (can be identical or different atom) representative: C, O, S, Si, P, NO, S, N, C.

It has good emission efficiency in solid and organic electroluminescence device.

Described synthetic oligopolymer (1), (2), (3), (4) system be uncommon (Wittig reaction) route by loving and respect one's elder brother Wei or Wei Ti Xi-Huo Le (Wittig-Horner reaction) route or brain literary composition lattice (Knoevenagel condensation) route method synthetic.

Now with synthetic oligopolymer (1) system, with tetraphenyl ethylene base biphenyl TSB with and derivative CN-TSB be example, its synthetic method is described.Oligopolymer (1) system can be synthetic by above any method, and example is as follows: [the following document of synthesized reference (1) Z.Yang, B.Hu, F.E.Karasz, Macromolecules, 1995,28,6151. (2) H.-H.Horhold, M.Helbig, Makromol.Chem.Macromol.Symp., 1987,12,229. (3) ArnoKraft, Andrew C.Grimsdale, Andrew B.Holmes, Angew.Chem.Int.Ed.1998,37,402.]

1) uncommon (Wittig reaction) route of loving and respect one's elder brother Wei:

Nineteen fifty-three Germanization scholar Witting has found a famous reaction ⁽¹⁾With two microcosmic salts and dialdehyde condensation, obtained phosphorus Ye Lide with haloalkane and triphenyl phosphorus reaction, can be converted into carbon-carbon double bond to the two keys of carbon oxygen easily, therefore this class reaction is widely used in increasing compound synthetic of carbon-carbon double bond, naturally also become the first-selected route of synthetic phenylene ethylene (PPV) oligopolymer, concrete reaction is as follows:

1) Ti Xi-Huo Le Wei (Wittig-Horner reaction) route:

Wei, Ti Xi-the Huo Le reaction was to replace triphenyl phosphorus with triethoxy phosphorus on the basis of wittig reaction, has further improved this reaction.

2) brain literary composition lattice (Knoevenagel condensation) route:

Brain literary composition reaction grid ⁽²⁾Be based in the alkaline environment cyano group and can form carbon-carbon double bond, thereby can be widely used in synthetic cyanogen class PPV with the aldehyde radical effect.

3 make device, are luminescent layer with oligopolymer (1), (2), (3), (4) system, utilize the method film forming of vacuum evaporation or the spin coating of high speed sol evenning machine, can prepare blue efficiently or other colour light emitting device.

Polymkeric substance and device advantage by the present invention's acquisition:

(1) can regulation and control substance interaction between the molecule, thereby suppressed association between the molecule, improved the quantum yield of luminescent device.

(2) can be by changing end-group structure, adjustable effective conjugate length, thereby the luminosity of controlled material and device efficiency.(3) can also pass through R ₁, R ₂, R ₃, R ₄, R ₅, R ₆The variation solvability of regulating oligopolymer, can form solids, be easy to the thickness of control device luminescent layer.

(4) can obtain the luminescent device broad stopband, that purity of color is high.

In sum, oligopolymer of the present invention is to have novel two (many) trimerization phenylene ethylenes and derivative thereof good blue emission performance, solid state; Be applicable to semiconducter device such as preparation Organic Light Emitting Diode, optical pumping and electric pump laser, field-effect transistor.

Description of drawings

Fig. 1 records center cell 2,5 for utilizing Rigaku R-AXIS RAPID type single crystal diffractometer, 2 ', 5 '-the X-ray structure iron of tetrabromo methyl diphenyl, the twist angle that records two phenyl ring is 71.8 °.

Fig. 2 is the synthetic route chart of oligopolymer TSB and TBVB.

Fig. 3 is the synthetic route chart of oligopolymer TFB.

Fig. 4 is the synthetic route chart of terphenyl center oligopolymer.

Fig. 5 is the structure iron that utilizes the electroluminescent device of oligopolymer preparation of the present invention.

Specific embodiments

Further illustrate preparation, the character of monomer and oligopolymer among the present invention below by embodiment; And be the luminescent device that luminescent layer is made with these oligopolymers.

Embodiment 1 is oligopolymer system synthetic at center with biphenyl, synthetic route such as Fig. 2.

The structure of step 1, center monomer is with synthetic

Preparation 2; 5; 2 '; 5 '-tetramethyl biphenyl: with triphenyl phosphorus (4.012g, 14.4mmol); 2,2 '-dipyridyl (0.316g; 2mmol); Nickel Chloride (0.26g; 2mmol) and zinc powder (0.0052g 80mmol) joins at the bottom of the garden of 100mL in the flask, adds the anhydrous N of 20mL under the nitrogen protection again; N '-dimethyl formamide; reaction then adds the 2-bromo-1 of 5.5mL (40mmol), the 4-dimethyl benzene in 50 ℃ of oil baths after forming dark brown catalyzer; and temperature of reaction is elevated to 80 ℃; reacted again under the nitrogen protection 8 hours; reaction finishes after-filtration and removes residual solid matters such as zinc powder, and decompression is spin-dried for and uses column chromatography purification after the filtrate and can obtain 2,5; 2 '; 5 '-tetramethyl biphenyl, decompression is spin-dried for and obtains white solid, productive rate 70%.

Preparation 2; 5,2 ', 5 '-the tetrabromo methyl diphenyl: 2; 5; 2 ', 5 '-tetramethyl biphenyl ((2.103g, 10mmol)), NBS (7.832g; 44mmol) and the benzoyl peroxide of catalytic amount add at the bottom of the garden of 100mL among the flask; the tetracol phenixin nitrogen protection that adds 40mL again refluxes down after 5 hours after-filtration remove solid residue, and decompression uses column chromatography after being spin-dried for filtrate, recrystallization is purified can obtain white product, and productive rate is 60%.

Preparation phosphonium salt: with compound 2,5,2 ', 5 '-the tetrabromo methyl diphenyl (0.5218g, 1mmol) and triphenyl phosphorus (1.154g 4.4mmol) is dissolved in anhydrous N, in N '-dimethyl formamide, behind the heating reflux reaction 18 hours, can obtain the white powder product, productive rate 60% with the filtration of anhydrous diethyl ether post precipitation.

Step 2, the monomeric selection of side chain and synthetic, the side chain monomer is selected H:

For simple side chain monomer, we can directly choose from existing aldehyde material, for example used phenyl aldehyde in the following steps, to the phenyl phenyl aldehyde.

And for comparatively complicated single aldehyde radical functional compounds, can be by first bromination, the reaction scheme of aldehyde radicalization obtains again.Below with synthetic 9,9 '-dihexyl-1-fluorenes formaldehyde is example, its concrete synthetic method is described, synthetic route such as Fig. 3:

Preparation 2-bromo fluorenes: successively with 5g (60mmol) fluorenes, 0.26g FeCl ₃Be dissolved among the 50mlDMF, 6g (34mmol) NBS is dissolved among the 60mlDMF slowly splashes into reacting at normal temperature without light 24 hours.Reaction finishes the back and adds dilute hydrochloric acid to system, adds the saturated sodium carbonate neutralization again, chloroform extraction three times, and solvent evaporated normal hexane recrystallization gets white solid 4.18g, productive rate 56%.

Preparation 9,9 '-dihexyl-2-bromine fluorenes: add 1g (4.08mmol) 2-bromo fluorenes successively, 1.7ml (12mmol) C ₆H ₁₃Br, 0.129g (0.4mmol) TBABr, 0.48mlNaOH (50%W/W) is heated to 90 ℃ of reactions 24 hours.Reaction adds little water after finishing, and chloroform extraction three times is spin-dried for solvent and gets the 0.68g colourless viscous liquid with hexanaphthene developping agent column chromatography, productive rate 41%.

Preparation 9; 9 '-dihexyl-1-fluorenes formaldehyde: with 9; 9 '-dihexyl-1-bromine fluorenes (0.413g; 1mmol), tetrahydrofuran (THF) (15mL) joins at the bottom of the garden of 50mL in the flask; make temperature of reaction remain on-78 ℃ under the nitrogen protection, in reaction system, add the 0.7mL n-Butyl Lithium then, adding the anhydrous N of 0.4mL after 3 hours in reaction under this temperature; N '-dimethyl formamide (DMF) then reacted 12 hours.Reaction finishes the back decompression and is spin-dried for solvent, obtains faint yellow viscous liquid material, use column chromatography purification can obtain 9,9 '-dihexyl-1-fluorenes formaldehyde, decompression is spin-dried for and obtains colourless viscous liquid, productive rate 66%.

Synthesizing of step 3, oligopolymer.

Preparation 2,5,2 ', 5 '-tetraphenyl ethylene base biphenyl (TSB): the salt 4 of seeing (0.158g, 0.1mmol) and phenyl aldehyde (0.064g, 0.6mmol) be dissolved in isopyknic ethanol of 20mL and the tetrahydrofuran (THF) mixed solvent, at room temperature to wherein dripping 3mL 5% ground alcohol sodium alcohol solution, react water cancellation reaction after 12 hours then, repeated precipitation can obtain flaxen powder mass in methyl alcohol, be oligopolymer TSB, productive rate 84%.

Preparation 2,5,2 ', 5 '-tetrad styrylbiphenyl (TBVB): (0.158g is 0.1mmol) with to phenyl phenyl aldehyde (0.093g the salt 4 of seeing, 0.6mmol) be dissolved in isopyknic ethanol of 20mL and the tetrahydrofuran (THF) mixed solvent, at room temperature to wherein dripping 3mL5% ground alcohol sodium alcohol solution, react water cancellation reaction after 12 hours then, repeated precipitation can obtain jonquilleous powder mass in methyl alcohol, be oligopolymer TBVB, productive rate 86%.

Preparation 2,5,2 ', 5 '-four-(9,9 '-dihexyl-1-fluorenes) vinyl biphenyl (TFB): the salt 4 of seeing (0.158g, 0.1mmol) and 9,9 '-dihexyl-1-fluorenes formaldehyde (0.217g, 0.6mmol) be dissolved in isopyknic ethanol of 15mL and the tetrahydrofuran (THF) mixed solvent, at room temperature to wherein dripping 3mL 5% ground alcohol sodium alcohol solution, react water cancellation reaction after 12 hours then, repeated precipitation can obtain the xanchromatic powder mass in methyl alcohol, be oligopolymer TFB, productive rate 60%.

Through actual measurement, can find out the optical property of blue-light-emitting PPV oligopolymer, blue-light-emitting PPV oligopolymer TSB of the present invention, TBVB in solution, film absorption and the maximum absorption peak position of emmission spectrum (excitation light source is respectively 380nm and 395nm) respectively 360 and 376nm, the maximum absorption band of the two is red shift some (being about 356nm) than the trimerization PPV oligopolymer outline of strand all, and the introducing that has shown center biphenyl is not very big to the degree of gripping the altogether influence of each strand.In solution, two kinds of oligopolymers all show good blue-light-emitting, and photoluminescence efficiency is all more than 60%, and the emission maximum peak position is respectively 22nm (2.94eV) and 451nm (2.75eV).Compare with traditional strand PPV oligopolymer, the emission maximum peak position of two kinds of oligopolymer solid films of the present invention is compared the red shift of having only 20-30nm with its solution.In addition, PPV oligopolymer film of the present invention has not only shown blue-light-emitting character, and the fluorescence efficiency of its film also obtained large increase (for example TBVB is 34%), and usually typical PPV oligopolymer all is lower than 10% fluorescence efficiency φ＜10% of styryl benzene film (for example to).Therefore material of the present invention is liquid and solid-stately all have a high efficiency blue emission PPV class oligopolymer.

We can obtain (as Fig. 4) by the reaction similar with above-mentioned synthetic method for the oligopolymer system with santowax center more, final product is all fastened the product of stating several building-up reactionss (as wittig reaction), and this class material all has good electroluminescent character.

The preparation of embodiment 2 blue-light-emitting PPV oligopolymer electroluminescent devices

Be illustrated in figure 5 as the structure iron of multilayer organic light emitting diode device (OLEDs), described LED device comprises compound ITO layer, NPB layer, luminescent layer, Alq successively ₃Layer, LiF layer, Al layer.In the present embodiment, the material of luminescent layer adopts the tetrad styrylbiphenyl TBVB of oligopolymer (1) system.This device is to handle 5 minutes with plasma oxygen with commercial ITO (scribbling the glass of tin indium oxide), on the evaporation behind the NPB, the oligopolymer of vacuum evaporation heat deposition again TBVB, and for the relatively large oligopolymer of molecular weight, then use the mode of sol evenning machine spin coating to make on the matrix of luminescent layer attached to ITO/NPB, so more help large-scale industrial production, at last vacuum evaporation lithium fluoride, aluminium electrode again.

The character of above-mentioned LED device: device shows blue emission, and recording cut-in voltage is 3V; Electroluminescent emission peak is: 440nm and 460nm; The CIE coefficient is: x=0.1726, y=0.1689; When voltage was 15V, maximum brightness was 2510cd/m ²Luminous efficiency is 1.62cd/A (luminous efficiency is 1.02lm/W).And existing PPV oligopolymer efficient is generally all less than 0.1cd/A, PPV oligopolymer LED device of the present invention has not only shown good blue-light-emitting, and its efficient also is greatly improved, can match in excellence or beauty with typical blue-light-emitting small molecules device (DPVBi, its efficient is about 1-4lm/W).

Claims (3)

1, a kind of luminous oligopolymer of PPV class that contains the biphenyl center, it is characterized in that: it comprises following making step:

The structure of step 1, center monomer is introduced the polyfunctional group structure centre material type with two or more biphenyl and is similar to A, B, C, D, E, F with synthetic; Described compound is the conjugate ring with certain torsion resistance, for example, and for compd A: M ₁=M ₂=Br, distortion angle are 71.8 °:

Wherein, M ₁, M ₂, M ₃, M ₄Can be identical or different group :-PPh ₃Br ,-PO (OC ₂H ₅) ₂Br or-CN

Step 2, the monomeric selection of side chain and synthetic, the side chain monomer is selected H:

Described side chain monomer H is the material that a class contains single aldehyde functional group, wherein R ₁, R ₂, R ₃, R ₄, R ₅Can be identical or different group, can be hydrogen atom, fluorine atom, phenyl ring, alkoxyl group (C1-C10), alkyl (C1-C10):

Synthesizing of step 3, oligopolymer, with monomer A, B, C, D, E, F react with side chain monomer H respectively, obtain because phenylene ethylene oligopolymer (1), (2), (3), (4) system at two or more biphenyl center:

Represent replacement situation on each end group phenyl ring with following formula: wherein, the former represents the replacement situation of phenylene ethylene oligopolymer system (1), (3), (4); The latter represents the replacement situation of phenylene ethylene oligopolymer system (2):

Phenyl ring in its Chinese style also can be: other aromatic nucleus such as naphthalene nucleus, pyridine

R ₁, R ₂, R ₃, R ₄, R ₅, R ₆(identical or different group) can be: hydrogen atom, fluorine atom, phenyl ring, alkoxyl group (C1-C10), alkyl (C1-C10 straight chain or branch chain), aromatic nucleus, pentanoic;

R (identical group) can be: hydrogen atom, cyano group are (CN);

X, Y (can be identical or different atom): O, S, N, C

Z representative: C, O, S, Si, P

2, the luminous oligopolymer of PPV class that contains the biphenyl center according to claim 1 is characterized in that: described synthetic oligopolymer (1), (2), (3), (4) system be uncommon (Wittig reaction) route by loving and respect one's elder brother Wei or Wei Ti Xi-Huo Le (Wittig-Horner reaction) route or brain literary composition lattice (Knoevenagel condensation) route method synthetic.

The tetraphenyl ethylene base biphenyl TSB and the derivative CN-TSB thereof of described oligopolymer (1) system, its synthetic method is:

(1) uncommon (Wittig reaction) route of loving and respect one's elder brother Wei:

Or be

(2) Ti Xi-Huo Le Wei (Wittig-Horner reaction) route:

Or be

(3) brain literary composition lattice (Knoevenagel condensation) route:

3, the luminous oligopolymer of PPV class that contains the biphenyl center according to claim 1 is the blue luminescent device of luminescent layer, it is characterized in that: can utilize the method film forming of vacuum evaporation or the spin coating of high speed sol evenning machine, blue efficiently or other colour light emitting device of preparation;

Described luminescent device comprises compound ITO layer, NPB layer, luminescent layer, Alq successively ₃Layer, LiF layer, Al layer, the material of described luminescent layer adopt described oligopolymer (1) or (2) or (3) or (4) system.

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