1530-12-7

Basic information

• Product Name: 9,9'-BIFLUORENE
• Synonyms: 9,9'-DIFLUORENYL;9,9'-BIFLUORENE;9,9’-Bi-9H-fluorenyl;9,9'-Bifluorenyl;Bifluorenyl;Bisfluorenyl
• CAS NO: 1530-12-7
• Molecular Formula: C₂₆H₁₈
• Molecular Weight: 330.42
• Product Categories: Fluorenes, Flurenones
• Mol File: 1530-12-7.mol
• Article Data: 88

Chemical Properties

• Melting Point: 244.0 to 248.0 °C
• Boiling Point: 402.85°C (rough estimate)
• Flash Point: 228.3°C
• Appearance: /
• Density: 1.1398 (estimate)
• Refractive Index: 1.8430 (estimate)
• CAS DataBase Reference: 9,9'-BIFLUORENE(CAS DataBase Reference)
• NIST Chemistry Reference: 9,9'-BIFLUORENE(1530-12-7)
• EPA Substance Registry System: 9,9'-BIFLUORENE(1530-12-7)

Safety Data

• Hazardous Substances Data: 1530-12-7(Hazardous Substances Data)

Usage

Description

9,9'-Bifluorene is an organic compound consisting of two fused fluorene rings. It is a white crystalline solid with a unique molecular structure that exhibits distinct chemical and physical properties.

Uses

Used in Chemical Synthesis:
9,9'-Bifluorene is used as a precursor in the synthesis of various organic compounds for different applications. It serves as a starting material for the production of other valuable compounds such as indene, chrysene, benzoanthracene, and others.
Used in Microwave Flash Pyrolysis:
In the field of chemical engineering, 9,9'-bifluorene is utilized in microwave flash pyrolysis, a technique that involves the rapid heating of a substance to high temperatures in the presence of a carrier gas. This process allows for the efficient formation of the aforementioned compounds, which can be further used in various industries, such as pharmaceuticals, materials science, and petrochemicals.

Upstream product

• 693-03-8 n-butyl magnesium bromide 
• 60-29-7 diethyl ether 
• 6630-65-5 9-chlorofluorene 
• 56-23-5 tetrachloromethane 
• 100-39-0 benzyl bromide 
• 91805-36-6 fluoren-9-ylmagnesium bromide 
• 931-50-0 cyclohexylmagnesium bromide 
• 71-43-2 benzene 
• 503-30-0 trimethylene oxide 
• 832-80-4 9-diazofluorenone 
• 15570-45-3 1,2,3,4-tetraphenylcyclopentadiene 
• 27090-15-9 9-(9'H-fluoren-9'-ylidene)-9H-xanthene 
• 62-53-3 aniline 
• 925669-95-0 2,3-cis-epoxybutane 

Downstream Products

• 746-47-4 tetrabenzo[5.5]fulvalene 
• 86-73-7 9H-fluorene 
• 197-61-5 rubicene 
• 191-68-4 dibenzo[g,p]chrysene 
• 340-19-2 benzindeno<1,2,3-hi>acephenanthrylene 
• 486-25-9 9-fluorenone 

Relevant articles and documents

Stabilization of Carbanions by Polarization of Alkyl Groups on Nonadjacent Atoms

Equilibrium acidities in dimethyl sulfoxide solution have been found to increase along the series Me, Et, i-Pr, t-Bu for 9-substituted fluorenes when the alkyl group, R, is separated from the fluorene ring by a CH2, S, or SO2 moiety.This is a reversal of

A Kinetic Study on Reduction of 9,9'-Bifluorenylidene by Sodium Isopropoxide

The kinetics and mechanism of reduction of 9,9'-bifluorenylidene (1) by sodium isopropoxide (2) in isopropyl alcohol to yield 9,9'-bifluorenyl (3) were investigated spectrophotometrically.The kinetic data suggest that the reduction proceeds autocatalytically, the reduction product 3 acting as the catalyst.It was found that (1) (2) Reactions 1 and 2 are of the first order with respect to 1, but that the former is of the third order with respect to 2, whereas the latter is of the first.The fourth- and third-order rate constants, k1 and k2 for Reactions 1 and 2 were determined to be 3.0 * 10-5 dm9 mol-3 s-1 and 1.1 * 103 dm6 mol-2 s-1, respectively, at 130 deg C.Probable mechanisms for Reactions 1 and 2 have been offered on the basis of the reaction order for each molecular species involved.

PHOTOCHEMICAL GENERATION OF RADICAL ANIONS. AN ACCESS TO NOVEL STRUCTURES

The preparation of the radical anions of tetrabenzocyclooctatetraene (TBCOT) and fluorene (FLH) by photochemical methods leads to the observation of novel structures.

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Ion Pair Acidities of 9,9'-Bifluorenyl in THF: pK2 Is Lower than pK1

The second pK's in THF for lithium and cesium salts of 9,9'-bifluorenyl are 0.4 and 2.0 pK units, respectively, lower than the first pK's.

A facile synthesis of dithieno[3,2-b:6,7-b]fluorenes via a tandem annulation-reduction

A concise and facile synthesis of 2,8-disubstituted dithieno[3,2-b:6,7-b] fluorenes starting from 2,7-dihydroxyfluorenone is reported. The key step involved is the tandem annulation-reduction of a 3,6-dichloro-2,7-di(alkynyl) fluorenone using Na2S·9H2O as a sulfur surrogate and reductant. The final dithiophene-fused fluorenes are obtained in reasonable yields (23-43%). The Royal Society of Chemistry.

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A Kinetic Study of the Photosolvolysis of 9-Fluorenol

Excitation of 9-fluorenol in methanol and methanol-water mixtures leads to both heterolytic and homolytic cleavage via the singlet excited state.The partitioning between homolysis and heterolysis is controlled by solvent composition, the rate constant for cation formation being a function of the solvent dielectric constant.The rate constants of intersystem crossing, fluorescence, and singlet-derived radical formation are linear functions of the mole fraction of water.

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Evidence for the Generation of Aromatic Cationic Systems in the Excited State. Photochemical Solvolysis of Fluoren-9-ol

Photolysis of fluoren-9-ol (1) in aqueous methanol solution results in efficient formation of 9-methoxyfluorene (2); the driving force for the photosolvolysis is believed to be the formation of an aromatic 4? cationic system in the excited-state.

Erratum: Experimental Evidence for p Ka-Driven Asynchronicity in C-H Activation by a Terminal Co(III)-Oxo Complex (Journal of the American Chemical Society (2019) 141:9 (4051?4062) DOI: 10.1021/jacs.8b13490)

It has been brought to our attention that our previous analysis of kinetic data for C-H activation was incomplete. For the reaction of PhB(tBuIm)3CoIIIO (3) with various substrates, the observed rate constants, kobs, were originally determined by plotting the natural log of the UV-vis absorbance at 470 nm at time t (At) divided by the initial absorbance (A0) versus time in seconds to give kobs as the slope of the linear fit of the data. However, this method implicitly assumes that the absorbance at infinite time, Ainf, is equal to 0. This is not true for these reactions due to absorbances from the reaction products, resulting in an underestimation of the true kobs values for each substrate. In order to obtain more accurate kobs values, the data were reanalyzed by fitting the absorbance versus time data at 470 nm to an exponential function, At = Ainf + (A0 - Ainf) e-kt. This method explicitly accounts for Ainf in the fitting parameters, providing more accurate values for the kobs for each substrate. For the Eyring analysis of the reaction between 3 and 9,10-dihydroanthracene, the noise and subsequent error in the measurements precluded good exponential fits of the variable-temperature data. Therefore, these data were analyzed by finding kobs as the slope of the linear fit of a plot of ln((At - Ainf)/(A0 - Ainf)) versus t in seconds, where Ainf was estimated from reactions carried out in a cuvette at room temperature. These new analyses result in the following corrections to the original Article.

Vanadium Pyridonate Catalysts: Isolation of Intermediates in the Reductive Coupling of Alcohols

The reductive coupling of alcohols using vanadium pyridonate catalysts is reported. This attractive approach for C(sp3)-C(sp3) bond formation uses an oxophilic, earth-abundant metal for a catalytic deoxygenation reaction. Several pyridonate complexes of vanadium were synthesized, giving insight into the coordination chemistry of this understudied class of compounds. Isolated intermediates provide experimental mechanistic evidence that complements reported computational mechanistic proposals for the reductive coupling of alcohols. In contrast to previous mononuclear vanadium(V)/vanadium(III)/vanadium(IV) cycles, this pyridonate catalyst system is proposed to proceed by a vanadium(III)/vanadium(IV) cycle involving bimetallic intermediates.

Nickel-catalyzed synthesis of 9-monoalkylated fluorenes from 9-fluorenone hydrazone and alcohols

A practical protocol was disclosed for the nickel-catalyzed C-alkylation of 9-fluorenone hydrazone with alcohols using t-BuOK as the base, and 9-monoalkylated fluorene derivatives were obtained in good yields under the benign conditions.