9-Fluorenone

A warm solution of 600 g. of technical sodium dichromate in 800 ml. of glacial acetic acid and 200 ml. of water is added dropwise (30 minutes) to a rapidly refluxing solution of 200 g. (1.2 moles) of technical fluorene in 400 ml. of glacial acetic acid. The mixture is refluxed for an additional 2.5 hours, after which it is poured into 4 1. of ice water and allowed to stand for 2 hours. The precipitated solid is filtered off and washed first with dilute sulfuric acid then with water until free of chromate ion. The air-dried product (190-200 g.) 

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Fluorene can be nitrated, sulphonated and chlorinated. Oxidation gives fluorenone (9 O). 

Commercially, the irradiation of the 5,7-diene provitamin to make vitamin D must be performed under conditions that optimize the production of the previtamin while avoiding the development of the unwated isomers. The optimization is achieved by controlling the extent of irradiation, as well as the wavelength of the light source. The best frequency for the irradiation to form previtamin is 295 nm (64—66). The unwanted conversion of previtamin to tachysterol is favored when 254 nm light is used. Sensitized irradiation, eg, with fluorenone, has been used to favor the reverse, triplet-state conversion of tachysterol to previtamin D (73,74). 

M. Belhakem and B. Jordanov, Polarized FT-IR speetra of 9-fluorenone dissolved and oriented in a nematie liquid erystal, J. Moleeular Liquids, 53 (1992) 161-168. 

One of the best tests of purity of dioxane is the formation of the purple disodium benzophenone complex during reflux and its persistence on cooling. (Benzophenone is better than fluorenone for this purpose, and for the storing of the solvent.) [Carter, McClelland and Warhurst Trans Faraday Soc 56 343 I 960], TOXIC. 

Fluorenone [486-25-9] M 180.2, m 82.5-83.0", 85-86", b 341°/760inin. Crystd from absolute EtOH, MeOH or benzene/pentane. [Ikezawa J Am Chem Soc 108 1589 1986.] Also twice recrystd from toluene and sublimed in a vac [Saltiel J Am Chem Soc 108 2674 1986]. Can be distd under high vacuum. 

Trinitro-9-fluorenone [129-79-3] M 315.2, m 176 . Crystd from nitric acid/water (3 1), washed with water and dried under vacuum over P2O5, or recrystd from dry benzene. 

Trinitro-9-fluorenone Xylene (xylol or dimethyl benzene)... 

The rho values (2.78 overall, 3.78 for reduction to the cis product and 1.96 for reduction to the trans), determined from a study of the rates of reduction with NaBH4 of a series of 4-substituted cyclohexanones, have been interpreted as supporting a transition state late in the reaction.Other groups have observed positive rho values (2.5 to 3.1) for the reduction with NaBH4 of fluorenones and acetophenones. These results show clearly... 

By analogy, thermal cyclization was described also for 6-nitro-2 -hydroxy-biphenyl-2-carboxylic acids, e.g. 14, obtained by other methods. The same product 15 was also formed from lactone 17, prepared by oxidation of fluorenone 16 (Scheme 2). If the reaction was performed in DMF, the corresponding dimethylamide was isolated (82KGS703, 86KGS852, 87KGS314, 89MI1). 

The authors used a synthesis of 9,9-spirobitluorenes 32 which was developed by Clarksen and Gomberg [60] and which includes the addition of biphenyl-2-yl-magnesium iodide to fluorenone and subsequent cyclization with protic acids. To obtain 2,2,, 7,7 -arylated 9,9-spirobifluorenes 33, 9,9-spirobifluorene (32) was tetrabrominated [58] to yield 34 followed by a Suzuki-type aryl-aryl cross-coupling with various oligoaryl and oligoheteroaryl boronic acids to obtain the 2,2, 7,7 -tetraarylated derivatives 33. 

Similarly, the hydride reduction of the fluorenone and anthraquinone complexes gives the corresponding secondary alcohols with endo-OH groups resulting from stereospecific attack [134], This strategy is also known in the Cr(CO)3(arene)... 

Keumi et al. (1989) describe hydro-de-diazoniations of arenediazonium tetrafluo-roborates using chlorotrimethylsilane, (CH3)3SiCl), in tetrahydrofuran or tetra-hydrofuran/A A-dimethylformamide mixtures. Excellent yields were obtained with polycyclic arene derivatives such as 2-fluorene-, 2-fluorenone-, and 1-pyrenediazo-nium tetrafluoroborate and other similar diazonium salts. In a modification of this method 2-halogenofluorenones can be synthesized (see Sec. 10.6). 

Shortly before this work by Pschorr, similar ring closures had been described for other compounds in which two benzene rings are already linked. Thus Graebe and Ullmann (1894) found that 2-diazobenzophenone can be converted into fluorenone in the analogous manner (Scheme 10-74). Similarly, when Staedel (1894) added nitrous acid to 2,2 -diaminobenzophenone he obtained some 1-hydroxyfluorenone. The ring closure of 2-benzylbenzenediazonium ion to give fluorene (Scheme 10-75) was described by Fischer and Schmidt (1894). 

The classical syntheses of phenanthrene and fluorenone fit well into the electron transfer scheme discussed in Section 8.6 and in this chapter. The aryl radical is formed by electron transfer from a Cu1 ion, iodide ion, pyridine, hypophosphorous acid, or by electrochemical transfer. The aryl radical attacks the neighboring phenyl ring, and the oxidized electron transfer reagent (e. g., Cu11) reduces the hexadienyl radical to the arenium ion, which is finally deprotonated by the solvent (Scheme 10-76). 

Lewin and Cohen (1967) determined the products of dediazoniation of ben-zophenone-2-diazonium salt (10.42, Scheme 10-77) in five different aqueous systems (Table 10-7). About one-third of the yield is 2-hydroxybenzophenone (10.46) and two-thirds is fluorenone (10.45, run 1) copper has no effect (run 2). On the other hand, addition of cuprous oxide (run 3) has a striking effect on product ratio and rate. The reaction occurs practically instantaneously and yields predominantly fluorenone. As shown in Scheme 10-77, the authors propose that, after primary dediazoniation and electron transfer from Cu1 to 10.43 the sigma-complex radical 10.44 yields fluorenone by retro-electron-transfer to Cu11 and deprotonation. In the presence of the external hydrogen atom source dioxane (run 12) the reaction yields benzophenone cleanly (10.47) after hydrogen atom abstraction from dioxane by the radical 10.43. 

TABLE 5. Reduction potentials (volt) of thioxanthone (TOS) and its oxides (TOSO, T0S02) compared with that of fluorenone (FIO)... 

The electron transfer reaction from fluorenyl carbanions adjacent to sulfoxide or sulfone (9) to fluorenone (FIO) has been studied by means of flash photolysis37. For n — 1 as well as n — 2 the transient F10T, M + (contact ion pair) appeared in THF and F10T(free ion)... 

Fluorenone is treated by excess of aniline in the presence of aniline hydrochloride.112... 

Die Reaktion lauft wahrscheinlich iiber das Oxim so wird z. B. aus Kalium-9-ari-nitro-fluoren in 39%iger Ausbeute Fluorenon-oxim1 erhalten. 

Tough, transparent, heat and flame resistant, multiblock (bisphenol fluorenone carbonate) (BPF)-dimethylsiloxane copolymers have been synthesized by interfacial polycondensation of phosgene with various mixtures of BPF end-capped siloxane oligomers and free BPF or its monosodium salt 232). Siloxane content of the copolymers were varied between 7 and 27%. Presence of two Tg s, one below —100 °C and the other as high as 275 °C, showed the formation of two-phase morphologies. 

Ketone (10) (fluorenone) is available and route (a) has been used successfully. 

T rifluoromonobromomethane Trimellitic anhydride 2,4,7-Trin itro-9-fluorenone... 

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