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    Fluorene

    Fluorene
    Fluorene structure
    CAS No.
    86-73-7
    Chemical Name:
    Fluorene
    Synonyms
    uorene;FLUORENE;NSC 6787;9H-FLUORENE;Fluorene>FLUOCINONIDE;Fluorene 98%;Fluorene,98%;2,3-BENZINDENE;2,3-Benzoindene
    CBNumber:
    CB3717011
    Molecular Formula:
    C13H10
    Formula Weight:
    166.22
    MOL File:
    86-73-7.mol

    Fluorene Properties

    Melting point:
    111-114 °C (lit.)
    Boiling point:
    298 °C (lit.)
    Density 
    1.2
    vapor pressure 
    13 hPa (146 °C)
    refractive index 
    1.6470
    Flash point:
    151 °C
    storage temp. 
    room temp
    solubility 
    0.002g/l insoluble
    pka
    >15 (Christensen et al., 1975)
    form 
    Crystalline Powder
    color 
    Almost white to light brown
    Water Solubility 
    insoluble
    Merck 
    14,4155
    BRN 
    1363491
    Henry's Law Constant
    1.89(x 10-5 atm?m3/mol) at 4 °C, 12.5 at 25 °C (dynamic equilibrium method, Bamford et al., 1999)
    Stability:
    Stable. Combustible. Incompatible with strong oxidizing agents.
    InChIKey
    NIHNNTQXNPWCJQ-UHFFFAOYSA-N
    CAS DataBase Reference
    86-73-7(CAS DataBase Reference)
    EWG's Food Scores
    2
    FDA UNII
    3Q2UY0968A
    IARC
    3 (Vol. Sup 7, 92) 2010
    NIST Chemistry Reference
    Fluorene(86-73-7)
    EPA Substance Registry System
    Fluorene (86-73-7)
    SAFETY
    • Risk and Safety Statements
    Symbol(GHS) 
    GHS02,GHS06,GHS08,GHS09
    Signal word  Danger
    Hazard statements  H400-H225-H301+H311+H331-H370-H412-H410
    Precautionary statements  P210-P260-P273-P280-P301+P310-P311-P501-P391
    Hazard Codes  N,T,F,Xn,Xi
    Risk Statements  50/53-39/23/24/25-23/24/25-11-67-65-38-36/38-36/37/38-52/53-20
    Safety Statements  60-61-24/25-45-36/37-16-7-62-33-24-22-36/37/39-27-26-25-9
    RIDADR  UN 3077 9/PG 3
    WGK Germany  3
    RTECS  LL5670000
    Hazard Note  Harmful
    TSCA  Yes
    HazardClass  9
    PackingGroup  III
    HS Code  29029080
    Toxicity Drinking water standard: No MCLGs or MCLs have been proposed, however, a DWEL of 1 mg/L was recommended (U.S. EPA, 2000).

    Fluorene price More Price(17)

    Manufacturer Product number Product description CAS number Packaging Price Updated Buy
    Sigma-Aldrich 128333 Fluorene 98% 86-73-7 5g $33.5 2021-03-22 Buy
    Sigma-Aldrich 8.20572 Fluorene for synthesis 86-73-7 100 g $67.8 2021-03-22 Buy
    Sigma-Aldrich 128333 Fluorene 98% 86-73-7 100g $75.7 2021-03-22 Buy
    Sigma-Aldrich 48568 Fluorene analytical standard 86-73-7 5000 mg $58.6 2021-03-22 Buy
    Sigma-Aldrich 8.20572 Fluorene for synthesis 86-73-7 250 g $153 2021-03-22 Buy

    Fluorene Chemical Properties,Uses,Production

    Chemical Properties

    white crystals

    Chemical Properties

    Fluorene, when pure, is found as dazzling white flakes or small, crystalline plates. It is fluorescent when impure. Polycyclic aromatic hydrocarbons (PAHs) are compounds containing multiple benzene rings and are also called polynuclear aromatic hydrocarbons.

    Physical properties

    Small white leaflets or crystalline flakes from ethanol. Fluorescent when impure.

    Uses

    Polycyclic aromatic hydrocarbons as micropollutants.

    Definition

    ChEBI: An ortho-fused tricyclic hydrocarbon that is a major component of fossil fuels and their derivatives

    Synthesis Reference(s)

    Journal of the American Chemical Society, 73, p. 2656, 1951 DOI: 10.1021/ja01150a069
    Synthetic Communications, 26, p. 1467, 1996 DOI: 10.1080/00397919608003512
    The Journal of Organic Chemistry, 37, p. 1273, 1972 DOI: 10.1021/jo00973a049

    General Description

    White leaflets. Sublimes easily under a vacuum. Fluorescent when impure.

    Air & Water Reactions

    Insoluble in water.

    Reactivity Profile

    Vigorous reactions, sometimes amounting to explosions, can result from the contact between aromatic hydrocarbons, such as Fluorene, and strong oxidizing agents. They can react exothermically with bases and with diazo compounds. Substitution at the benzene nucleus occurs by halogenation (acid catalyst), nitration, sulfonation, and the Friedel-Crafts reaction.

    Hazard

    Questionable carcinogen.

    Health Hazard

    Acute toxicity in animals is very low. AnLD50 (intraperitoneal) in mice is 2000 mg/kg.Carcinogenicity of this compound in animalsis not well established. It tested negative in ahistidine reversion–Ames test.

    Health Hazard

    ACUTE/CHRONIC HAZARDS: Fire hazards: Slight, when exposed to heat or flame.

    Potential Exposure

    Fluorene is used in resins, dyes, and is a chemical intermediate.

    Source

    Fluorene was detected in groundwater beneath a former coal gasification plant in Seattle, WA at a concentration of 140 μg/L (ASTR, 1995). Present in diesel fuel and corresponding aqueous phase (distilled water) at concentrations of 350 to 900 mg/L and 12 to 26 g/L, respectively (Lee et al., 1992). Schauer et al. (1999) reported fluorene in diesel fuel at a concentration of 52 g/g and in a diesel-powered medium-duty truck exhaust at an emission rate of 34.6 g/km. Diesel fuel obtained from a service station in Schlieren, Switzerland contained fluorene at an estimated concentration of 170 mg/L (Schluep et al., 2001).
    Based on laboratory analysis of 7 coal tar samples, fluorene concentrations ranged from 1,100 to 12,000 ppm (EPRI, 1990). Lao et al. (1975) reported a fluorene concentration of 27.39 g/kg in a coal tar sample. Detected in 1-yr aged coal tar film and bulk coal tar at an identical concentration of 4,400 mg/kg (Nelson et al., 1996). A high-temperature coal tar contained fluorene at an average concentration of 0.64 wt % (McNeil, 1983). Identified in high-temperature coal tar pitches at concentrations ranging from 800 to 4,000 mg/kg (Arrendale and Rogers, 1981). Lee et al. (1992a) equilibrated 8 coal tars with distilled water at 25 °C. The maximum concentration of fluorene observed in the aqueous phase was 0.3 mg/L.
    Fluorene was detected in asphalt fumes at an average concentration of 34.95 ng/m3 (Wang et al., 2001).
    Nine commercially available creosote samples contained fluorene at concentrations ranging from 19,000 to 73,000 mg/kg (Kohler et al., 2000).
    Thomas and Delfino (1991) equilibrated contaminant-free groundwater collected from Gainesville, FL with individual fractions of three individual petroleum products at 24–25 °C for 24 h. The aqueous phase was analyzed for organic compounds via U.S. EPA approved test method 625. Average fluorene concentrations reported in water-soluble fractions of unleaded gasoline, kerosene, and diesel fuel were 1, 3, and 10 μg/L, respectively.
    Fluorene was detected in soot generated from underventilated combustion of natural gas doped with toluene (3 mole %) (Tolocka and Miller, 1995).
    Schauer et al. (2001) measured organic compound emission rates for volatile organic compounds, gas-phase semi-volatile organic compounds, and particle-phase organic compounds from the residential (fireplace) combustion of pine, oak, and eucalyptus. The gas-phase emission rates of fluorene were 4.44 mg/kg of pine burned, 3.83 mg/kg of oak burned, and 2.613 mg/kg of eucalyptus burned.
    California Phase II reformulated gasoline contained fluorene at a concentration of 4.35 mg/kg. Gas-phase tailpipe emission rates from gasoline-powered automobiles with and without catalytic converters were 9.72 and 358 μg/km, respectively (Schauer et al., 2002).
    Under atmospheric conditions, a low rank coal (0.5–1 mm particle size) from Spain was burned in a fluidized bed reactor at seven different temperatures (50 °C increments), beginning at 650 °C. The combustion experiment was also conducted at different amounts of excess oxygen (5 to 40%) and different flow rates (700 to 1,100 L/h). At 20% excess oxygen and a flow rate of 860 L/h, the amount of fluorine emitted ranged from 850.7 ng/kg at 950 °C to 3,632.8 ng/kg at 750 °C. The greatest amount of PAHs emitted were observed at 750 °C (Mastral et al., 1999).
    In one study, fluorene comprised about 7.6% of polyaromatic hydrocarbons in creosote (Grifoll et al., 1995).
    Identified as an impurity in commcerially available acenaphthene (Marciniak, 2002).
    Typical concentration of fluorene in a heavy pyrolysis oil is 1.6 wt % (Chevron Phillips, May 2003).

    Environmental Fate

    Biological. Fluorene was statically incubated in the dark at 25 °C with yeast extract and settled domestic wastewater inoculum. Significant biodegradation with gradual adaptation was observed. At concentrations of 5 and 10 mg/L, biodegradation yields at the end of 4 wk of incubation were 77 and 45%, respectively (Tabak et al., 1981).
    Photolytic. Fluorene reacts with photochemically produced OH radicals in the atmosphere. The atmospheric half-life was estimated to range from 6.81 to 68.1 h (Atkinson, 1987). Behymer and Hites (1985) determined the effect of different substrates on the rate of photooxidation of fluorene (25 μg/g substrate) using a rotary photoreactor. The photolytic half-lives of fluorene using silica gel, alumina, and fly ash were 110, 62, and 37 h, respectively. Gas-phase reaction rate constants for OH radicals, NO3 radicals, and ozone at 24 °C were 1.6 x 10-11, 3.5 x 10-15, and <2 x 10-19 in cm3/molecule?sec, respectively (Kwok et al., 1997).
    Chemical/Physical. Oxidation by ozone to fluorenone has been reported (Nikolaou, 1984). Chlorination of fluorene in polluted humus poor lake water gave a chlorinated derivative tentatively identified as 2-chlorofluorene (Johnsen et al., 1989). This compound was also identified as a chlorination product of fluorene at low pH (<4) (Oyler et al., 1983). It was suggested that the chlorination of fluorene in tap water accounted for the presence of chlorofluorene (Shiraishi et al., 1985).

    Shipping

    UN3077 Environmentally hazardous substances, solid, n.o.s., Hazard class: 9; Labels: 9-Miscellaneous haz ardous material, Technical Name Required.

    Purification Methods

    Purify fluorene by chromatography of CCl4 or pet ether (b 40-60o) solution on alumina, with *benzene as eluent. Crystallise it from 95% EtOH, 90% acetic acid and again from EtOH. Crystallisation using glacial acetic acid retains an impurity which is removed by partial mercuration and precipitation with LiBr [Brown et al. J Am Chem Soc 84 1229 1962]. It has also been crystallised from hexane, or *benzene/EtOH, distilled under vacuum and purified by zone refining. [Gorman et al. J Am Chem Soc 107 4404 1985, Beilstein 5 IV 2142.]

    Incompatibilities

    Incompatible with oxidizers (chlorates, nitrates, peroxides, permanganates, perchlorates, chlorine, bromine, fluorine, etc.); contact may cause fires or explo sions. Keep away from alkaline materials, strong bases, strong acids, oxoacids, epoxides. Compound can react exo thermically with bases and with diazo compounds. Substitution at the benzene nucleus occurs by halogenation (acid catalyst), nitration, sulfonation, and the Friedel Crafts reaction.

    Waste Disposal

    Persons in charge of vessels or facilities are required to notify the National Response Center (NRC) immediately when there is a release of this designated hazardous substance, in an amount equal to or greater than its RQ listed above. The toll free number of the NRC is (800) 424-8802; In the Washington D.C. metro politan area call (202) 426-2675. The rule for determining when notification is required is stated in 40 CFR 302.4 (Section IV. D.3.b).

    Fluorene Preparation Products And Raw materials

    Raw materials

    Preparation Products


    Fluorene Suppliers

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    View Lastest Price from Fluorene manufacturers

    Image Release date Product Price Min. Order Purity Supply Ability Manufacturer
    2021-08-10 Fluorene
    86-73-7
    US $10.00 / KG 100KG 99% 100 mt Hebei Guanlang Biotechnology Co., Ltd.
    2021-07-20 Fluorene
    86-73-7
    US $0.00-0.00 / KG 1g 99% 2000tons Shaanxi Dideu Medichem Co. Ltd
    2021-07-13 Fluorene
    86-73-7
    US $15.00-10.00 / KG 1KG 99%+ HPLC Monthly supply of 1 ton Zhuozhou Wenxi import and Export Co., Ltd

    Fluorene Spectrum


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