WO2006048268A1 - Organische elektrolumineszenzvorrichtung - Google Patents
Organische elektrolumineszenzvorrichtung Download PDFInfo
- Publication number
- WO2006048268A1 WO2006048268A1 PCT/EP2005/011734 EP2005011734W WO2006048268A1 WO 2006048268 A1 WO2006048268 A1 WO 2006048268A1 EP 2005011734 W EP2005011734 W EP 2005011734W WO 2006048268 A1 WO2006048268 A1 WO 2006048268A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- electronic device
- organic electronic
- organic
- aromatic
- ring system
- Prior art date
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Classifications
-
- H—ELECTRICITY
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Definitions
- organic semiconductors As functional materials, the use of organic semiconductors as functional materials has long been a reality or is expected in the near future.
- organic charge transport materials i.a., triarylamine-based hole transporters
- O-TFTs, O-FETs, organic integrated circuits (O-ICs) and organic solar cells (O-SCs) have come a long way in the research stage, so it can be expected to be launched within the next few years.
- OLEDs organic electroluminescent devices
- the market introduction has already taken place, as evidenced, for example, by the Pioneer car radios or a Kodak digital camera with an "organic display”.
- PLEDs polymer light-emitting diodes
- first products in the form of a small display in a shaver and a mobile phone from Philips N.V. are available on the market.
- Partial mixtures of isomeric compounds which may have different physical properties (glass transition temperature, glass-forming properties, absorption, photoluminescence) are used. Since some of these stereoisomers have different vapor pressures even at the processing temperature, it is not possible to produce the organic electronic device uniformly and reproducibly. This fact has not been recognized as a problem in the previous literature, but leads to non-reproducible results and thus to significant disruptions in the production and operation of the organic electronic devices.
- Registration in principle also includes corresponding anthracene and phenanthrene derivatives.
- anthracene derivatives as hole blocking material is described for example in US 2004/0161633.
- WO 03/095445 in CN 1362464 and in some other applications and publications, for example, 9,10-bis (1-naphthyl) anthracene derivatives are described for use in OLEDs.
- none of the above descriptions deals with the problem of isomerism.
- Electroluminescent devices plays. The same applies to the materials in other functions or in other layers and also to the materials in other organic electronic devices. Therefore, it should be possible to further improve the properties of the organic electronic devices by further optimizing the materials. Thus, there is still a need for materials, particularly host materials for blue-emitting OLEDs, which result in good efficiencies and at the same time long lifetimes in organic electronic devices and which lead to reproducible results in the manufacture and operation of the devices. It has now surprisingly been found that organic electronic devices containing atropisomeric compounds which are capable of forming diastereomers and which contain one of the possible stereoisomers in excess have marked improvements over the prior art. With these enriched or isolated materials is an increase in efficiency and the
- EP 0952200 discloses diphenylanthracene derivatives which, according to the description, are said to be capable of forming stable atropisomers by high energy barriers of rotation about the single bonds. Our own investigations have shown that these compounds can not form at room temperature stable and isolable atropisomers, so that it is unclear what is meant in this description. Even if these compounds could indeed form stable atropisomers, it is not disclosed that the use of single atropisomers over the mixture leads to advantages.
- the invention relates to organic electronic devices comprising cathode, anode and at least one layer containing at least one organic compound having atropisomerism and thereby to the formation of
- the organic electronic devices are preferably selected from the group of electronic devices consisting of organic and polymeric light-emitting diodes (OLEDs, PLEDs), organic field-effect transistors (O-FETs), organic thin-film transistors (O-TFTs), organic light-emitting transistors (O -LETs), organic integrated circuits (O-ICs), organic
- O-SCs organic field quench devices
- LOCs light-emitting electrochemical cells
- O-lasers organic laser diodes
- the compound having atropisomerism may be used in various functions in the organic electronic device, as a dopant host material for dopants capable of emitting light from the singlet or triplet state, as dopant Hole transport material, as electron transport material or as hole blocking material.
- dopant Hole transport material as electron transport material or as hole blocking material.
- the use of the material with atropisomeric excess does not differ from the usual one
- Used compound which exhibits atropisomerism as described above and which has an atropisomeric excess of at least 10% This applies primarily to organic electroluminescent devices. Other uses of the materials may be preferred in other devices, such as charge transport materials in organic field effect transistors or organic thin film transistors.
- the organic electronic device contains one or more organic layers of which at least one layer contains at least one compound as described above. If it is an organic
- Electroluminescent device is at least one organic layer is an emission layer.
- organic transistors at least one organic layer is a charge transport layer.
- organic electroluminescent devices in addition to the emitting layer, further layers may be present. These can be, for example:
- Isomerism generally refers to the phenomenon that compounds of the same number of identical atoms can differ in their arrangement. Isomers are thus chemical compounds with the same gross, but different structural formulas. For this application is stereoisomerism.
- diastereomers are those molecules (stereoisomers) which have the same linkage (constitution), but do not behave in the same way as image and mirror image. Diastereomers can be by no
- Conformation means the exact spatial arrangement of atoms or
- Atomic groups of a molecule of defined linkage are created by rotation about single bonds and can not be brought to coincidence. If the arrangements thus generated correspond to an energy minimum, then one speaks of conformational isomers or conformers.
- Atropisomerism (definition according to Römpp Lexikon Chemie - Version 2.0, Stuttgart / New York: Georg Thieme Verlag 1999) is understood as a form of stereoisomerism in which the stereoisomerism of the molecule is hindered by free rotation around a single bond, ie by steric hindrance of moieties . is caused (ie formally conformers with hindered rotation).
- the compounds can be chiral or achiral, or they are diastereomeric to each other. For atropisomers, equilibrium usually sets in when, due to an increase in temperature, the internal mobility in the
- Atropisomers are generally considered to be isolable when the energy barrier at room temperature is about 80 kJ / mol or more, such as at
- Biphenyl derivatives with sufficiently large substituents in the 2-position (ortho position). Since any stereogenic axis (spin-hindered single bond) in atropisomeric compounds can occur in one or the other of two possible conformations, there are 2 n stereoisomers (diastereomers and enantiomers) for n non-equivalent axes. However, the number of stereoisomers may also be less than 2 n , if by intrinsic symmetry elements z. B. a stereoisomer is achiral or an axis loses its stereochemistry, ie that no new stereoisomer is formed upon rotation about this axis.
- a and C are substituted or asymmetrically constructed, where A and C may be the same or different, resulting in two atropisomers that are diastereomeric to each other (Scheme 1b).
- These two atropisomers are also referred to as syn and anti form.
- Each of these two atropisomers is achiral (ie congruent with its mirror image), since each has at least one mirror plane in the molecule. If, in addition to the same substituents on ⁇ and C, one or more substituents on B are present which render unit B unsymmetrical, only one syn form remains, while the anti-form decomposes into two enantiomers (Scheme 1c). If different substituents are present instead of the same substituents on A and C, four atropisomers which are diastereomeric or enantiomeric to one another are formed
- Scheme 1 Schematic representation of the various possible atropisomers, depending on the substitution of the molecule; in this case there is a single bond with hindered rotation between the molecule parts A, B and C in each case.
- Table 1 Relationship between atropisomeric excess and molar distribution of isomers.
- a special case may arise when more than two atropisomers are possible, for example by formation of enantiomers as described in Scheme 1c or 1d, or also when more than two diastereomers may be present by the presence of more than two single bonds with hindered rotation.
- Diastereomer still decomposes into enantiomers or not. It is equally permissible for the enriched diastereomer to be in the form of a racemate (ie both enantiomers in equal proportions) or that one enantiomer be present in excess or in pure form. If more than two diastereomers are present, the excess of atropisomers should be determined analogously to the above, with all the deficient atropisomers being considered together as one group. Here the atropisomeric excess is calculated as follows:
- the atropisomeric excess can be determined by conventional chemical analysis methods, for example by HPLC or by 1 H-NMR spectroscopy, since they are diastereomers with different physical properties (different retention times in the HPLC, different chemical shift in NMR).
- a preferred method is the determination of the
- the activation energy for the rotation around the corresponding single bonds must be at least about 80 kJ / mol.
- the term used above is "single bond with hindered
- Rotation should thus refer to an activation energy of the rotation about this single bond of at least 80 kJ / mol
- This activation energy can be determined, for example, by temperature-dependent NMR measurement, however, since the compounds must also withstand higher temperatures (for example in a recrystallization or Sublimation, but also in the organic electronic device), it is preferred if the activation energy for the rotation about the single bonds is at least 100 kJ / mol, more preferably at least 120 kJ / mol, in particular at least 140 kJ / mol rotation around the single bond can be controlled by the exact structure of the compounds and in particular by the substitution.
- the activation energy for the rotation around the single bond can be determined experimentally by temperature-dependent NMR measurements and can further by HPLC or GC measurements increased Te temperature to be determined.
- the atropisomerism is generated between two sp 2 centers and not, for example, between an sp 2 and an sp 3 center. It is also preferred if atropisomerism is generated by hindered rotation about C-C single bonds and not, for example, by hindered rotation about CN single bonds. This preference can be explained by the fact that most of the compounds used as host materials are pure hydrocarbons or at least have a pure hydrocarbon backbone and therefore, if they have atropisomerism, they have these C-C bonds.
- the subject of the invention is the use of an atropisomeric excess of at least 10%.
- preference is given to a greater atropisomeric excess of at least 20%, particularly preferably of at least 50%, very particularly preferably of at least 70%, in particular at least 90%, at least 95% and at least 99%. Larger atropisomeric excesses are preferred since this ensures better reproducibility.
- the compound has exactly two single bonds with hindered rotation, and the predominantly present atropisomer is the syn isomer.
- the compound has exactly two single bonds with hindered rotation, and the predominantly present atropisomer is the anti-isomer.
- compounds which have exactly three single bonds of hindered rotation and thus may have more than the four atropisomers listed in Scheme 1. These single bonds may be either linear or branched to give atropisomerism.
- compounds which have exactly four single bonds with hindered rotation and therefore may have more atropisomers again. These single bonds may be either linear or branched to give atropisomerism.
- Used compounds which have more than four single bonds with hindered rotation and therefore may have more atropisomers again. These single bonds may be either linear or branched to give atropisomerism.
- the compound having atropisomerism is preferably a compound of the formula (1)
- A is the same or different an aryl or at each occurrence
- Heteroaryl group having 5 to 40 ' aromatic ring atoms, d . which may be substituted by R or unsubstituted, with the proviso that in all ortho positions for linking to B, C, D, E, G or J (and also to the
- Linkage to other A if m> 1) is a group R is bound or a group B, C, D, E, G or J, or that this position is blocked by a part of the ring system, if A is a fused aromatic Represents ring system; B, C, D,
- E, G, J is the same or different at each occurrence, an aromatic or heteroaromatic ring system having 5 to 40 aromatic ring atoms, which may be unsubstituted or substituted by one or more R, with the proviso that in at least one ortho position for linking to A a group R is bound, or that this position by a
- R 1 is the same or different at each occurrence, H or an aliphatic or aromatic hydrocarbon radical having 1 to 20 carbon atoms; n is the same or different at each occurrence 0 or 1; m is the same or different at each occurrence 1, 2, 3, 4 or 5, preferably 1, 2 or 3, more preferably 1 or 2, most preferably 1.
- a C 1 -C 40 -alkyl group in which also individual H atoms or CH 2 groups can be substituted by the abovementioned groups particularly preferably the radicals methyl, ethyl, n-propyl, i-propyl, n-butyl, i-butyl, s-butyl, t-butyl, 2-methylbutyl, n-pentyl, s-pentyl, cyclopentyl, n-hexyl, cyclohexyl, n-heptyl, cycloheptyl, n-octyl, cyclooctyl, 2-ethylhexyl, trifluoromethyl, pentafluoroethyl, 2,2,2-trifluoroethyl, ethenyl, propenyl, butenyl, pentenyl, cyclopentenyl, hexen
- C 1 - to C 40 alkoxy group are particularly preferably methoxy, ethoxy, n-propoxy, i-propoxy, n-butoxy, i-butoxy, s-butoxy, t-butoxy or 2-methylbutoxy understood.
- An aromatic or heteroaromatic ring system having 5-40 aromatic ring atoms, which may be substituted in each case by the abovementioned radicals R and which may be linked via any position on the aromatic or heteroaromatic radical, is understood in particular to mean groups which are derived from benzene, Naphthalene, anthracene, phenanthrene, pyrene, chrysene, perylene, fluoranthene, naphthacene, pentacene, benzpyrene, biphenyl, biphenylene, terphenyl, terphenyls, fluorene, spirobifluorene, dihydrophenanthrene, dihydropyrene, tetrahydropyrene, cis or trans indenofluorene,
- At least one carbon atom is bound to A in all ortho positions for linking to B, C, D, E, G and J. This may either be part of a fused ring system (directly on the aromatic or heteroaromatic unit A), or it may be bonded to A as a substituent R.
- B, C, D, E, G and J in each case at least one ortho position for linking to A is at least bound a carbon atom.
- This can be either part of a fused ring system (directly in the aromatic or heteroaromatic unit B, C, D, E, G or J), or it can be used as substituent R respectively to B, C, D, E, G or J be bound.
- the more stable atropisomers that can be obtained when larger groups are present in ortho position to the respective linkage, preferably with at least two C atoms, which can be part of a fused ring system or a substituent R.
- Groups A, D and / or G (and / or optionally B, C, E and J) is a fused aromatic ring system.
- A is a fused aromatic ring system.
- D and G (and optionally also B, C, E and / or J) are fused aromatic ring systems or ortho-biphenyl.
- a and D and G (and if present also B, C, E and J) are each fused aromatic ring systems.
- At least one of the groups A, D and / or G (and / or optionally B, C, E and / or J) is a fused heteroaromatic ring system, and the groups D and / or G.
- B, C, E and / or J represent an ortho-biphenyl system.
- An aryl group for the purposes of this invention contains 6 to 40 carbon atoms;
- a heteroaryl group contains 2 to 40 C atoms and at least 1 heteroatom, with the proviso that the sum of C atoms and
- Heteroatoms at least 5 results.
- the heteroatoms are preferably selected from N, O and / or S.
- aryl group or heteroaryl either a simple aromatic cycle, ie benzene, or a simple heteroaromatic cycle, for example pyridine, pyrimidine, thiophene, etc., or a fused aryl or heteroaryl group as defined below
- biphenyl for example, in which there is a freely rotatable C-C bond between the two phenyl units, is not an aryl group in the sense of this invention.
- the invention is intended to be understood to mean a system which does not necessarily contain only aromatic or heteroaromatic groups but in which several aromatic or heteroaromatic groups are also replaced by a short, non-aromatic unit (less than 10% of the atoms other than H, preferably less than 5% of the atoms other than H), such as.
- a short, non-aromatic unit less than 10% of the atoms other than H, preferably less than 5% of the atoms other than H
- an sp 3 -hybridized C, N or O atom may be interrupted.
- systems such as 9,9'-spirobifluorene, 9,9-diarylfluorene, triarylamine, etc. are to be understood as aromatic ring systems in the context of this invention.
- the aromatic or heteroaromatic ring system may also be a condensed system as defined below.
- fused aromatic or heteroaromatic ring systems are understood to mean ring systems in which at least two rings, of which at least one is aromatic or heteroaromatic, are linked to one another
- fused ie fused together by annulation, thus having at least one common edge and a common aromatic ⁇ -electron system
- ring systems may be substituted or unsubstituted by R.
- systems such as naphthalene, tetrahydronaphthalene, anthracene, phenanthrene, pyrene, Carbazole, etc. as condensed aromatic ring systems, while, for example, biphenyl is not a fused aromatic ring system, since there is no common edge between the two ring systems.
- the fused aromatic ring systems contain between two and eight aromatic and / or heteroaromatic units which are each fused to each other via one or more common edges and thereby form a common aromatic system and which may be substituted by R or unsubstituted.
- the fused aromatic ring systems particularly preferably contain between two and six heteroaromatic or preferably aromatic units, in particular two, three or four aromatic units which are each fused to each other via one or more common edges and thereby form a common aromatic system and are substituted by R or can be unsubstituted.
- the fused aromatic and heteroaromatic units are selected from benzene, pyridine, pyrimidine, pyrazine, pyridazine, pyrrole, furan and thiophene, which may be substituted by R or unsubstituted, in particular benzene and pyridine:
- the fused aromatic ring systems are preferably selected from the group consisting of naphthalene, anthracene, phenanthrene, pyrene, naphthacene, chrysene, pentacene, quinoline, isoquinoline, quinoxaline, phenanthroline, perylene, triphenylene, carbazole, benzothiophene or dibenzothiophene, optionally may be substituted by R.
- the condensed aromatic ring systems are particularly preferably selected from the group consisting of naphthalene, anthracene, phenanthrene, pyrene or perylene, which may optionally be substituted by R, in particular naphthalene, anthracene, phenanthrene and pyrene.
- R may optionally be substituted by R, in particular naphthalene, anthracene, phenanthrene and pyrene.
- R may be particularly useful to increase the activation energy for rotation about the corresponding single bond and thus to obtain more stable isomers.
- the substitution may also be useful to obtain more soluble compounds.
- substitution can also help to differentiate between different atropisomers, since depending on the compound by the substituent, the properties of the two isomers, for example, the solubility and / or the polarity changes to different proportions, whereby the separation of the two isomers can be simplified ,
- the symbol A stands for a 9,10-linked anthracene moiety. Due to the nature of the linkage, this already has sufficiently large groups in the ortho position for linking, so that no further substituents on this unit are absolutely necessary in order to enable stable atropisomers.
- the symbol A stands for a pyrene unit.
- Examples of suitable compounds which form atropisomers are structures 1 to 17 shown below, wherein each of the examples a shows the syn form and the example b shows the anti-form and in each case both (or all) possible atropisomers in enriched or preferably pure form suitable for use in organic electronic devices.
- the thick imprinted bonds indicate the parts of the molecule that lie above the plane that is spanned by the central unit.
- Structural units (D1) to (D12) and (G1) to (G12) are combined.
- the dashed bond in each case means the attachment to the other units according to formula (1).
- the radicals R a on the units (A1) to (A3), (A10) and (A11) are preferably selected from the group consisting of methyl, tert-butyl, phenyl, ortho-To ⁇ y ⁇ , meta
- ToIyI para-tolyl, ortho-fluorophenyl, mefa-fluorophenyl, para-fluorophenyl, 1-naphthyl, 2-naphthyl, oro-xylyl, mefa-xylyl, para-xylyl and mesityl.
- the radicals R a on the units (A4) to (A9) and (A12) to (A15) are preferably selected from the group consisting of methyl, Fe / F-butyl, fluorine, phenyl, ortho-To ⁇ y ⁇ , mefa Tolyl, para-tolyl, o / ffro-fluorophenyl, mefa-fluorophenyl, para-fluorophenyl, 1-naphthyl,
- At least one of the radicals R d on the units (D1) to (D4) and (G1) to (G4) in the ortho position for linking the group D with A or G with A is preferably selected from the group consisting of fe / f-butyl, N (phenyl) 2 , N (p-tolyl) 2 ,
- the other radicals R d on the units (D1) to (D4) and (G1) to (G4) and on the units (D5) to (D12) and (G5) to (G12) are preferably selected from the group consisting of
- the radicals R d in para position to link the group D with A or G with A also be hydrogen.
- the radicals R a on the units (D3), (G3), (D11) and (G11) can also be hydrogen.
- Atropisomeric mixtures of formula (1) in which A and optionally also D and G are fused aromatic ring systems capable of forming diastereomers and having an excess of one atropisomer (diastereomer) over the other atropisomer (diastereomer) are novel and therefore also an object of the present invention.
- the invention therefore furthermore relates to atropisomer mixtures of the formula (1),
- A is the same or different at each occurrence, a fused aryl or
- E, G, J is the same or different at each occurrence, an aromatic or heteroaromatic ring system having 5 to 40 aromatic ring atoms, which may be unsubstituted or substituted by R, with the proviso that at least one aromatic radical in the ortho position to the linkage to A.
- R is present, which may also be fused to the corresponding unit B to J; characterized in that an atropisomeric excess of an atropisomer of at least 10% is present.
- the Atropisor ⁇ erengemisch of formula (1) preferably consists only of the atropisomers of a compound, d. H. it is preferably a mixture of atropisomers, without the mixture containing further components.
- Atropisomeric excess of at least 20%, particularly preferably at least 50%, very particularly preferably at least 70%, in particular at least 90%, at least 95% or at least 99%, is preferred. Larger atropisomeric excesses are preferred, as this gives a better
- Preferred fused aromatic ring systems are those already mentioned above.
- A is particularly preferably selected from the units 9,10-anthracene, pyrene, perylene. Also particularly preferred are the corresponding aza analogs. Most preferably, A is selected from 9,10-anthracene and pyrene.
- B, C, D, E, G and J are independently selected from 1-naphthyl, ortho-biphenyl, 1-anthryl, each of which may be substituted by R or unsubstituted. With particular preference, these groups are selected from the corresponding aza analogs.
- the synthesis of the compounds according to formula (1) is usually carried out by first synthesizing according to the literature the mixture of atropisomers which statistically present in a ratio of about 1: 1.
- the enrichment and isolation of one of the atropisomers can be carried out in a subsequent step, for example by utilizing different solubility, for example by recrystallization. It may be useful to substitute the compound according to formula (1) suitable, whereby the solubility of the different
- Atropisomere can change to different proportions.
- Other common separation methods of organic chemistry can also be used, for example column chromatography, preparative HPLC, distillation, sublimation, fractional crystallization or extraction (eg Soxhlett extraction). If, in addition to the diastereomers, individual enantiomers are to be enriched or isolated, chromatography on chiral solid phases is suitable for this purpose.
- the use of the template effect may also be possible for the synthesis.
- One of the possible atropisomers is already selected in solution in the synthesis by addition of a template (for example, a suitable metal ion) and thereby formed in significant excess.
- the atropisomer which is not enriched or isolated, can be re-equilibrated by re-isomerization, for example, by sufficiently long heating in a suitable solvent, by treatment with ultrasound and / or with microwaves, with the other atropisomer.
- the process of isomer separation can thus be carried out without loss.
- the invention therefore furthermore relates to conjugated, partially conjugated or nonconjugated polymers, oligomers or dendrimers containing repeating units which form atropisomers and are thus capable of forming diastereomers, characterized in that an atropisomeric excess of at least 10% is used.
- these repeating units can be synthesized inter alia in polyfluorenes (eg according to EP 842208 or WO 00/22026), poly-spirobifluorenes (eg according to EP 707020 or EP 894107), poly-para-phenylenes (eg according to US Pat WO 92/18552), polyhydrophenanthrenes (for example according to WO 05/014689), polyphenanthrenes (for example according to DE 102004020298.2), poly-indenofluorenes (for example according to WO 04/041901 or WO 04 / 113412), poly-carbazoles, poly-anthracenes, poly-naphthalenes or even polythiophenes (for example according to EP 1028136). Also polymers with several of these units or homopolymers of the atropisomeric repeat units are possible.
- the atropisomer used in excess is more soluble than the atropisomer used in deficit.
- the excess of atropisomers in the polymer, oligomer or dendrimer is at least 20%, particularly preferably at least 50%, very particularly preferably at least 70%, in particular at least 90%, at least 95% or at least 99%. Larger atropisomeric excesses are preferred, as this gives a better
- Solubility of the polymers, oligomers or dendrimers is guaranteed.
- an organic electronic device characterized in that one or more layers are coated with a sublimation process.
- the materials are vacuum deposited in vacuum sublimation at a pressure less than 10 "5 mbar, preferably less than 10 " 6 mbar, more preferably less than 10 "7 mbar.
- an organic electronic device characterized in that one or more layers are coated with the OVPD (Organic Vapor Phase Deposition) method or with the aid of a carrier gas sublimation.
- the materials are usually applied at a pressure between 10 "5 mbar and 1 bar.
- an organic electronic device characterized in that one or more layers of solution, such. B. by spin coating, or with any printing process, such.
- any printing process such.
- screen printing flexographic printing or offset printing, but particularly preferably LITI (Light Induced Thermal
- Imaging thermal transfer printing
- ink-jet printing ink-jet printing
- the emissive devices described above have the following surprising advantages over the prior art using mixtures with an atropisomeric ratio of about 1: 1: 1.
- the stability of such devices is greater compared to prior art systems, which is especially in a longer life shows. 2.
- the organic electronic devices are better with
- the enrichment can be used to isolate more soluble isomers, which are consequently easier to purify or easier to process from solution.
- the starting materials were obtained from ALDRiCH or ABCR (9,10-dibromoanthracene, 4-methylnaphthalene-1-boronic acid,
- the 1 H-NMR spectra were on a DMX-500 MHz spectrometer from the Fa.
- Atropisomerenüberschuss enriched by 80% was recrystallized again from N-methylpyrrolidinone.
- 800 ml of N-methylpyrrolidinone were heated to 190 0 C. Then the mixture was added with an atropisomeric excess of atropisomer 2 of 80% with good stirring. After a clear solution had formed (about 5 min.), The heat source was removed, and the solution cooled to room temperature with stirring (about 16 h). The solid was filtered off with suction and washed with a little N-methylpyrrolidinone.
- the yield was 7.9 g, with the atropisomeric excess of atropisomer 2 estimated to be at least 98% (99% ratio: 1%), since the atropisomer 1 in this fraction is detected neither by HPLC nor by 1 H NMR spectroscopy could.
- the atropisomer 1 is in all common, polar organic solvents, such as. As dichloromethane, chloroform, acetone, THF, DMSO, DMF, NMP, etc., readily soluble.
- the atropisomer 2 is very sparingly soluble in all common organic solvents. It shows the best solubility even in dipolar aprotic solvents such as DMF, NMP or DMSO in the boiling heat, from which it can also be recrystallized (see above).
- Heating can also produce a mixture with an atropisomeric ratio of about 1: 1. This shows that an isomer mixture can be generated again from the enriched isomer by suitable experimental conditions. Thus, the unused isomer does not have to be discarded, but can still be used after isomerization.
- the atropisomer 2 exhibits a structured emission band in the photoluminescence, while the atropisomer 1 has a broad, barely structured emission band, which is also clearly bathochromically shifted.
- 9,10-Dibromoanthracene 45.0 g (300 mmol), 2-formylbenzoic acid and 55.1 g (520 mmol) of sodium carbonate in a mixture of 500 ml of toluene, 150 ml of ethanol and 400 ml of water was treated with 2.3 g (2 mmol) of tetrakis-triphenylphosphino - Palladium (O) and heated for 48 h under reflux. After cooling, 500 ml of ethyl acetate were added, the org. Phase was separated, washed twice with 500 ml of water, dried over magnesium sulfate and then concentrated to dryness.
- Atropisomerengemischs is due to the extensive overlap of the signals of atropisomers 1 and 2, complex; however, the relative molar ratio of atropisomers from two sufficiently separated singlets assigned to the formyl protons can be determined: Atropisomer 1: ⁇ (formyl proton): 9.42 ppm (s); about 30% atropisomer 2: ⁇ (formyl-proton): 9.38 ppm (s); about 70%
- SB-C18 (4.5 x 75 mm, 3.5 micron) at 40 ° C and a flow rate of the eluent (76.5% methanol / 8.5% THF / 15% water) of 1 ml / min separately.
- the 1 H NMR spectra were recorded on a Bruker DMX-500 MHz spectrometer.
- the 1 H-NMR spectrum of the atropisomer mixture described above is complex due to the extensive overlap of the signals of atropisomers 1 and 2; however, the relative molar ratio of atropisomers can be determined from two sufficiently separated singlets, which are assigned to the methyl protons: Atropisomer 1: ⁇ (methyl proton): 3.66 ppm (s); about 49% atropisomer 2: ⁇ (methyl proton): 3.64 ppm (s); about 51%
- OLEDs were carried out according to a general procedure according to
- WO 04/058911 which in individual cases was adapted to the respective conditions (eg layer thickness variation in order to achieve optimum efficiency or color).
- the matrix material used was the anthracene derivative A1 according to Example 1. Both the isolated atropisomers and the atropisomeric mixture were used.
- HIL Hole Injection Layer
- PEDOT hole transport layer
- HTM hole transport layer 20 nm NaphDATA (evaporated, obtained from SynTec .
- HTM hole transport layer
- Emission layer 40 nm A1 (atropisomer 1, atropisomer 2 or
- Electron injection layer 1. nm LiF cathode % 1 ' OO nm Al. "
- OLEDs were characterized by default; For this purpose, the electroluminescence spectra, the photometric efficiency (measured in cd / A), the power efficiency (measured in Im / W) as a function of the brightness, calculated from current-voltage-brightness characteristics (LilL characteristics), and the • life were determined ,
- the lifetime is defined as the time after which the ' . , .- Starting brightness of the OLED, starting from a certain brightness, while keeping constant the associated current has fallen to half.
- FIG. 2 shows the current density-voltage curves of the atropisomers 1 and 2, as well as of the mixture of atropisomers in the stated monolayer structure, layer structure: ITO
- the atropisomers 1 and 2 and, on the other hand, a mixture of the atropisomers 1 and 2 were obtained by intimate mixing of equal parts by weight of the atropisomers 1 and 2 (hereinafter referred to as the mixture of atropisomers).
- Atropisomer 1 and 2 of A1 show a significantly lower use stress than that
- Figure 3 shows the phbtometric efficiency in cd / A (upper trace) and power efficiency in Im / W (lower trace) as a function of the brightness of the.
- Example 6 OLED characterization as a function of the vapor deposition time
- Figure 5 shows the photometric efficiency in cd / A (upper curve bundle)
- y 0.31.
- Devices that were obtained at the beginning of device preparation, ie those; containing the Atropisomerengemisch show inferior performance data compared to the devices that were obtained towards the end of device preparation and that contain an atropisomeric excess of atropisomer 2 of 95%, determined by HPLC.
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Abstract
Description
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Priority Applications (4)
Application Number | Priority Date | Filing Date | Title |
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US11/718,692 US8940407B2 (en) | 2004-11-06 | 2005-11-03 | Organic electroluminescent device |
EP05803307.7A EP1807481B1 (de) | 2004-11-06 | 2005-11-03 | Organische elektrolumineszenzvorrichtung |
JP2007539528A JP2008525995A (ja) | 2004-11-06 | 2005-11-03 | 有機エレクトロルミネッセンスデバイス |
KR1020077010220A KR101342279B1 (ko) | 2004-11-06 | 2007-05-04 | 유기 전자발광 장치 |
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EP04026402A EP1655359A1 (de) | 2004-11-06 | 2004-11-06 | Organische Elektrolumineszenzvorrichtung |
EP04026402.0 | 2004-11-06 |
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US (1) | US8940407B2 (de) |
EP (2) | EP1655359A1 (de) |
JP (2) | JP2008525995A (de) |
KR (1) | KR101342279B1 (de) |
CN (2) | CN101061199A (de) |
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Publication number | Publication date |
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KR101342279B1 (ko) | 2013-12-16 |
US8940407B2 (en) | 2015-01-27 |
JP5813815B2 (ja) | 2015-11-17 |
EP1807481A1 (de) | 2007-07-18 |
US20090072712A1 (en) | 2009-03-19 |
CN103456884B (zh) | 2016-03-09 |
TW200632069A (en) | 2006-09-16 |
JP2014160840A (ja) | 2014-09-04 |
JP2008525995A (ja) | 2008-07-17 |
EP1655359A1 (de) | 2006-05-10 |
KR20070083986A (ko) | 2007-08-24 |
CN101061199A (zh) | 2007-10-24 |
EP1807481B1 (de) | 2018-06-20 |
CN103456884A (zh) | 2013-12-18 |
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